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Takeshi Nakagawa, Yang Ding, and co-workers published a paper entitled "Full-Color Luminescence from Single-Component Hydrocarbon Crystal: RGB Emission by Altering Molecular Packing Under Pressure" in the Advanced Optical Materials (highlighted as Front cover article of the issue 20 of the volume 11) .

Takeshi Nakagawa gave an invited talk entitled “Hydrocarbons under high pressure: Full-color luminescence by altering molecular packing” at the joint 28th AIRAPT and 60th EHPRG international Conference 2023 (https://iop.eventsair.com/airapt2023/#), held in Edinburgh, U.K. 23-28 July 2023

Takeshi Nakagawa gave a poster presentation entitled “Piezochromic Luminescence of Large Hydrocarbon” at the nature conferences – Frontiers of High Pressure Research – Science under Extreme Conditions 2022 (https://conferences.nature.com/event/594e835f-fb56-4210-bee3-f4a1349d264e/summary), held in Shanghai, China. His presentation received a “Best Poster Award”. 21-23 November 2022

Hongshan graduated, and received a PhD in Science. July 2nd, 2021.

Hongshan Deng,* Jianbo Zhang, Min Yong Jeong, Dong Wang, Qingyang Hu, Shuai Zhang, Raimundas Sereika, Takeshi Nakagawa, Bijuan Chen, Xia Yin, Hong Xiao, Xinguo Hong, Jichang Ren, Myung Joon Han,* Jun Chang,* Hongming Weng, Yang Ding,* Hai-Qing Lin, and Ho-kwang Mao. Metallization of Quantum Material GaTa₄Se₈ at High Pressure. The Journal of Physical Chemistry Letters, 12, 5601−5607 (2021). Highlighted in HPSTAR.

Yanling Wu(吴艳玲)^†, Xia Yin(尹霞)^†, Jiazila Hasaien(加孜拉·哈赛恩), Yang Ding(丁阳)*, Jimin Zhao(赵继民)*. High-pressure ultrafast dynamics in Sr₂IrO₄: pressure-induced phonon bottleneck effect. Chinese Physics Letters Express Letter, 37(4), 047801 (2020).

（详见Chinese Physics Letters公众号报道：https://mp.weixin.qq.com/s/rh19fYex9UwuahGwAPrBqg）

Raimundas Sereika, Changyong Park, Curtis Kenney-Benson, Niall Joseph English, Sateesh Bandaru, Qiangwei Yin, Hechang Lei, Ning Chen, Cheng-Jun Sun, Steve M Heald, Ji-Chang Ren, Jun Chang, Yang Ding*, Ho-Kwang Mao. Novel superstructure-phase 2D material 1T-VSe₂ at high pressure. Journal of Physical Chemistry Letters, 11, 380-386 (2020).

Bijuan Chen, Ekaterina M. Pärschke, Wei-Chih Chen, Brandon Scoggins, Bing Li, Mahalingam Balasubramanian, Steve Heald, Jianbo Zhang, Hongshan Deng, Raimundas Sereika, Y. A. Sorb, Xia Yin, Yan Bi, Ke Jin, Qiang Wu, Cheng-Chien Chen, Yang Ding*, and Ho-kwang Mao. Probing cerium 4f-states across the volume collapse transition by X-ray raman scattering. Journal of Physical Chemistry Letters, 10, 7890−7897 (2019).

（详见《光明日报》的报道：http://news.gmw.cn/2019-12/10/content_33391036.htm）

Jianbo Zhang, Dayu Yan, Sorb Yesudhas, Hongshan Deng, Hong Xiao, Bijuan Chen, Raimundas Sereika, Xia Yin, Changjiang Yi, Youguo Shi, Zhenxian Liu, Ekaterina M. Pärschke, Cheng-Chien Chen, Jun Chang, Yang Ding & Ho-kwang Mao, Lattice frustration in spin-orbit Mott insulator Sr₃Ir₂O₇ at high pressure, npj Quantum Materials, 4, Article number: 23 (2019)

Yang Ding, an invited Key-note talk "Spin-Orbit Assisted Correlated Materials at High Pressure: Novel Phases and Phenomena" at a Nature Conference, from April 12-April 16, 2019, Cheng Du, China.

Yang Ding, an invited talk "Spin-Orbit Assisted Correlated Materials at High Pressure" at SMEC meeting 2019, from March 30-April 6, 2019, Miami, FL.

Yang Ding, an invited seminar "The high pressure synchrotron study of electron correlated materials" at 超导国家重点实验室-超导基础理论和实验技术系列讲座（八十），Nov. 6th. 2018.

Yang Ding, an invited presentation “A Novel Stripe Phase in Bi2212 Superconductor”, the 9th Asian Conference on High Pressure Research; Session Chair. Singapore, Sept. 30-Oct 3, 2018.

Yang Ding, an invited presentation “A Novel Ribbon Phase in Bi₂Sr₂CaCu₂O₈_+δSuperconductor”, the 7th Chinese Crystallography Conference; Session Chair. Tian Jin, China, Sept. 25-28, 2018.

Yang Ding, gave an invited presentation “A Novel Ribbon Phase in Bi₂Sr₂CaCu₂O₈_+δSuperconductor”, the20th Chinese High-Pressure Science Conference”; Session Chair. Jilin, China, Aug.22-26 2018.

2018年8月18日，我组国家自然科学基金面上基金项目“高压调控下的4f电子态研究”获得国家自然科学基金委员会正式批准。项目批准号：11874075

J. Patrick Clancy, HlynurGretarsson, Jennifer A. Sears, Yogesh Singh, Serge Desgreniers, KavitaMehlawat, Samar Layek, Gregory Kh. Rozenberg, Yang Ding, Mary H. Upton, Diego Casa, Ning Chen, Junhyuck Im, Yongjae Lee, Ravi Yadav, Liviu Hozoi,Dmitri Efremov, Jeroen van den Brink and Young June Kim, Pressure drivencollapse of the relativistic electronic ground state in a honeycomb iridate, npj Quantum Materials (2018) 3:35; doi:10.1038/s41535-018-0109-0.
（见科学网的报道: http://news.sciencenet.cn/htmlpaper/201883011485373647206.shtm）

2018年8月9日，国家科技部重点研发计划“综合极端条件下的新型关联电子材料及量子态调控”项目实施计划启动会在中国科学院物理所召开。项目及课题一负责人：靳常青；课题二负责人：程金光；课题三负责人：丁阳；课题四：负责人：万贤纲。

Jianbo Zhang, Yang Ding*, ChengChien Chen, Zhonghou Cai, Jun Chang, Bijuan Chen, Xinguo Hong, Andrei Fluerasu, Yugang Zhang, ChingShun Ku, Dale Brewe, Steve Heald, Hirofumi Ishii, Nozomu Hiraoka, KuDing Tsuei, Wenjun Liu, Zhan Zhang, Yong Q. Cai, Genda Gu, Tetsuo Irifune, and Hokwang Mao, Evolution of a Novel Ribbon Phase in Optimally Doped Bi₂Sr₂CaCu₂O_8+δ at High Pressure and Its Implication to High Tc Superconductivity, J. Phys. Chem. Lett., 2018, 9, pp 4182/4188 DOI: 10.1021/acs.jpclett.8b01849, Publication Date (Web): July 6, 2018.

https://pubs.acs.org/doi/full/10.1021/acs.jpclett.8b01849

（见《中国科学报》的报道：http://news.sciencenet.cn/sbhtmlnews/2018/7/337414.shtm）

Yang Ding, invited presentation “Electron Correlated Systems at High Pressure”, Thermec’2018, Paris, France, 9-13 July 2018.

Ph.D student Hongshan Deng received a 2017-HPSTAR Student-Scholarship from HPSTAR on June 8th 2018.

Raimundas Sereika*, Wei Wu, Changyong Park, Curtis Kenney Benson, Dale L. Brewe, Steve M. Heald, Jianbo Zhang, Sorb Yesudhas, Hongshan Deng, Bijuan Chen, Jianlin Luo, Yang Ding*, and Ho-kwang Mao, Prolonged mixed phase induced by high pressure in MnRuP, Phys. Rev. B, 97, 214103 (2018).

Yang Ding is inivited by Dr. Wei Xu from the Institute of High Energy Physics (IHEP) of Chinese Academy of Sciences research institutes to present a talk "HighPressure Inelastic X ray Scattering Science and its Prospects" at workshop "Inelastic Xray scattering 2018: instrumentation and applicationsIHEP" on May 11th, 2018, Beijing, China.

HoKwang Mao, XiaoJia Chen, Yang Ding, Bing Li, and Lin Wang, Solids, liquids, and gases under high pressure, Rev. Mod. Phys. 90, 015007 – Published 20 March 2018.

Professor Jimin Zhao, from Institue of Physics, CAS, visited XSG at HPSTAR and presented a seminar “Ultrafast Spectroscopy of Quantum Matters | 量子材料的超快光谱学” on Jan 18, 2018. http://hpstar.ac.cn/contents/25/8376.html

Dr. Yang Ding is invited by Dr. Yoshiharu Sakurai to present a Seminar talk "High pressure Synchrotron study of electron correlated systems" at SPring-8, Japan on Dec 20th 2017.

http://www.spring8.or.jp/en/science/meetings/2017/sp8_seminar/sp8_semi_272/?set_language=en&cl=en

Dr Yang Ding presented at European Material Resarch Society (EMRS) 2017 Fall meeting as a Organizer, Session Chair, and invited speakers at Session H" Energy & functional materials: high pressure, high temperature synthesis & characterization" from Sept. 18-21, 2017 at Warsaw, Poland.

Dr. Ming Feng Tian, Associate Professor at Condense Matter Physics, Beijing Institute of AppliedPhysics and Computational Mathematics, CEAP presented a seminar "The phase transitions in cerium studied by an LDA + Gutzwiller method"; Dr. Ya Fan ZHAO, MetallicMaterial Group in Software Center for High Performance Numerical Simulation, also presented a seminar "Structure search method : from development toapplication" at XSG, Beijing HPSTAR, on Sept. 15 2017.

Dr Yang Ding presanted an Invited Lecture "High pressure study of the electron correlated systems" at 55th "European High Pressure Research Group" (EHPRG) meeting (session 23 Energy materials under high pressure: experiment & theory) , Poznan, Poland, from Sept. 3-8 2017.

Dr Yang Ding, as one of its Programm Committee members, was invited as a session chair at the "10th international conference on Inelastic Xray Scattering Conference (IXS2017)", Hamburg, Gemany, from Aug 28-Sept 1st., 2017.

Group members Drs. Bijuan Chen, Jianbo Zhang, Raimundas Seraika, Sorb, Y.A., student Hongshan Deng, presented oral or poster presentations, and Dr. Yang Ding co-chaired "Nuclear Resonant and Inelastic X-ray Scattering at High Pressures" at the 26th AIRAPT International Conference on on High pressure science and technology, Beijing, China, Aug 19-23, 2017.

Professor Arun Banil, from Institue of Physics, CAS, is invited to present a seminar “ Topological Phases of Quantum Matter as Novel Platforms for Fundamental Science and Applications” at Beijing HPSTAR on June 11, 2017. http://hpstar.ac.cn/contents/25/7245.html

Dr. Yang Ding was invited by Prof. Mingliang Tian to give a seminar "高压下强关联体系的同步辐射研究“ at 中科院中国科学院强磁场科学中心, on June 9th, 2017.

Dr. Yang Ding was invited by Prof. Jinguang Chen to give a seminar "高压下强关联体系的同步辐射研究" at 中科院物理所－极端室青年学术论坛 on May 10th 2017.

Student Yin Xia joined XSG on May 8th 2017.

Dr. Yang Ding is invited to give two presentations at Study of Matter at Extreme Conditions - SMEC2017 from April 19 2017 at Miami, USA. The first presentation is "Correlation of Novel Micronscale Ribbon like Phase and TC in Bi₂Sr₂CaCu₂O₈_+δ Superconductor" at symposium 'Layered superconductors and related functional materials". The second presentation is "RIXS Study of Electron Strongly Correlated Systems at High Pressure" at symposium "Correlated Electron Systems and Thermoelectric Materials at High Pressures"

Professor Youguo Shi, from Institue of Physics, CAS, visited XSG at HPSTAR and presented a seminar “新材料探索以及功能材料单晶生长” on Jan 13, 2017.

2016 HPSTAR annual staff meeting was held at Shanghai HPSTAR center on Jan. 10th 2017.

Professor Jinguang Cheng, from Institue of Physics, CAS, visited XSG at HPSTAR and presented a seminar “Unconventional superconductivity under high pressure | 高压下非常规超导体研究” on Dec 06, 2017. http://hpstar.ac.cn/contents/25/6484.html

Dr. Yang Ding attended EMRS fall 2016 as an organizer of symposium from Sept 19-26, 2016, at Warsaw, Poland.

Dr. Bijuan Chen joined XSG on Sept. 20, 2016.

Master Degree student Hongshan Deng joined XSG on Sept 1st. 2016

Dr. Yan Li, an editor of Phys. Rev. B, visited our group and HPSTAR at Beijing on Aug. 5th, 2016

Yang Ding presented a seminar "探究高压下的固体量子态" for HPSTAR Summer Camp on July 13, 2016.

Professor Cheng Chien Chen, from Univeristy of Alabama, USA, visited XSG at HPSTAR andpresented a seminar “Topological Order and Symmetry Protected TopologicalPhase: Numerical Studies of Spin liquid on Kagome and Honeycomb Lattice” on July 8, 2016.
http://hpstar.ac.cn/contents/25/5334.html

Yang Ding is on the APS page in the Journal of Synchrotron Radiation.
"http://journals.iucr.org/s/issues/2016/04/00/s160400aps.pdf"

Yang Ding et. al. "Pressure Induced Confined Metal from the Mott Insulator Sr₃Ir₂O₇" has been published on Phys. Rev. Letts., on May 27 2,106.
Highligt at HPSTAR: http://hpstar.ac.cn/contents/27/5008.html. and at APS, Argonne National Lab: https://www1.aps.anl.gov/APS-Science-Highlight/2016/discovery-novel-confined-metal-high-pressure

Dr. Yang Ding has an Invited talk “Novel Pressure Induced Confined Metal from the Mott Insulator Sr₃Ir₂O₇” at Thermec06, Graze, Austria, (May 26, 2016).

Dr. Jianbo Zhang joined XSG in April 2016.

Dr. Y.A. Sorb joined XSG in March 2016.

Dr. Raimundas Sereika joined XSG in Feb 2016.

Dr. Yang Ding hasan invited Seminar: “Novel Pressure Induced Confined Metal from the Mott Insulator Sr₃Ir₂O₇”，at NSLS-II, Brook haven National Laboratory, (Feb. 19, 2016).

Dr. Yang Ding isinvited as the Session Chair of “Focused Topic II: Extreme Conditions” at the “The 9th International Conference on Inelastic X-ray Scattering”, NSRRC, Taiwan. (Nov 22-26, 2015).

Dr. Yang Ding has an invited Invited seminar: "Pressure Tuned Insulator Metal Transition in Mott systems",at HPSTAR, Shanghai, (October 16, 2015).

Dr. Yang Ding hasan Invited talk: “Elementary excitation of spin orbit assisted Mott insulator Sr₃Ir₂O₇ at high pressure”, European Materials Research Society (EMRS) 2015 Fall Meeting; Symposium“High pressure as a tool to design & synthesize new High Tc superconductor, hard materials & multifunctional oxides”. Warsaw, Poland, (Sept. 15-18,2015).

Professor Xiangang Wan, from Nanjing University, visited XSG at HPSTAR and presented a seminar "5d过渡金属氧化物中的奇异量子物性研究" on October 14, 2015. link: http://hpstar.ac.cn/contents/25/1930.html.

Dr. Yang Ding joined HPSTSR and formed XSG in Jan. 2016

PI: Dr. Yang Ding

Staff Scientist, HPSTAR

No 10. Dongbeiwang West Road,

Haidian, Beijing, China

Tel: 010-5698-1751

Email: yang.ding@hpstar.ac.cn

Yang Ding @ Researchgate

YDING_2019_Nov_22.pdf

　　Dr. Yang Ding joined HPSTAR as a staff scientist in June 2015. He was a Physicist (staff scientist) in the X-Ray Science Division at Argonne National Laboratory from 2011-2015, and a Research Scientist at Geophysical Laboratory of Carnegie Institution of Washington from 2005-2011. He received his Ph.D. from the Johns Hopkins University in 2002 and B.S. from Nanjing University in 1991.

　　His research mainly concerns high-pressure condensed matter physics. His current interest focuses on studying emergent phenomena such as superconductivity, magnetism, and phase transitions in electron strongly correlated materials at high pressure by using novel synchrotron methods (i.e. resonant inelastic x-ray scattering, resonant x-ray emission, inelastic x-ray scattering, magnetic x-ray circular dichroism, x-ray absorption, nano-imaging).

Selected Publications (*corresponding authors)

Jianbo Zhang, Yang Ding*, ChengChien Chen, Zhonghou Cai, Jun Chang, Bijuan Chen, Xinguo Hong, Andrei Fluerasu, Yugang Zhang, ChingShun Ku, Dale Brewe, Steve Heald, Hirofumi Ishii, Nozomu Hiraoka, KuDing Tsuei, Wenjun Liu, Zhan Zhang, Yong Q. Cai, Genda Gu, Tetsuo Irifune, and Hokwang Mao, Evolution of a Novel Ribbon Phase in Optimally Doped Bi₂Sr₂CaCu₂O_8+δ at High Pressure and Its Implication to High Tc Superconductivity, J. Phys. Chem. Lett., 9 (15), 4182–4188 (2018).

H-K. Mao, X.J. Chen, Y. Ding, B. Li, and L. Wang, Solids, liquids, and gases under high pressure, Rev. Mod. Phys. 90, 015007 ( 2018).

Y. Ding*, L Yang, Cheng-Chien Chen, H-S. Kim, Myung Joon Han, W. Luo, Z. Feng, M. Upton, D. Casa, J. Kim, T. Gog, Z. Zeng, G. Cao, H-k. Mao, and M. v. Veenendaal, Pressure-Induced Confined Metal from the Mott Insulator Sr₃Ir₂O₇. Phys. Rev. Letts.116, 216402 (2016).

Y. Ding*, C.-C. Chen, Q. Zeng, H.-S. Kim, M. J. Han, M. Balasubramanian, R. Gordon, F. Li, L. Bai, D. Popov, S. M. Heald, T. Gog, H.-k. Mao, M. v. Veenendaal, Novel high-pressure monoclinic metallic phase of V₂O₃. Phys. Rev. Letts. 112, 056401 (2014) (Editor suggested).

Y. Ding*, J. Fernandez-Rodriguez, J. Kim, F. Li, D. Casa, M. Upton, T. Gog, h.-k. Mao, M. Van Veenendaal, Spin-ordering mediated orbital hybridization in CoO at high pressures. Physical Review B 86, 094107 (2012).

Y. Ding*, D. Haskel, Y.-C. Tseng, E. Kaneshita, M. van Veenendaal, J. F. Mitchell, S. V. Sinogeikin, V. Prakapenka, H.-k. Mao, Pressure-Induced Magnetic Transition in Manganite (La_0.75Ca_0.25MnO₃). Phys. Rev. Letts. 102, 237201 (2009).

Y. Ding*, D. Haskel, S. G. Ovchinnikov, Y.-C. Tseng, Y. S. Orlov, J. C. Lang, H.-k. Mao, Novel Pressure-Induced Magnetic Transition in Magnetite Fe₃O₄. Phys. Rev. Letts. 100, 45508 (2008).

Y. Ding*, R. Ahuja, J. Shu, P. Chow, W. Luo, H.-k. Mao, Structural phase transition of vanadium at 69 GPa. Phys. Rev. Letts. 98, 85502 (2007).

H.-K. Mao*, Y. Ding, Y. Xiao, P. Chow, J. Shu, S. Lebègue, A. Lazicki, R. Ahuja, Electronic dynamics and plasmons of sodium under compression. PNAS 108, 20434-20437 (2011).

H.-K. Mao*, E. L. Shirley, Y. Ding, P. Eng, Y. Q. Cai, P. Chow, Y. Xiao, J. Shu, R. J. Hemley, C. Kao, Electronic Structure of Crystalline He⁴ at High Pressures. Phys. Rev. Letts. 105, 186404 (2010).

Group Members

Dr. Jianbo Zhang

Postdoctoral Associate, HPSTAR

No 10. Dongbeiwang West Road,

Haidian, Beijing, China

Email: jianbo.zhang@hpstar.ac.cn

Dr. Jianbo Zhang was a Ph.D student supervised by Prof. Xiaojia Chen from Department of Materials Physics and chemistry at South China University of Technology in Guangzhou, China, and obtained his Ph.D degree recently. During Sept. 2012-Aug. 2014, Jianbo was awarded as an Excellent Predoctoral Associate to work at High-Pressure Synergetic Center (HPSynC) locating at Argonne National Laboratory. His research interest mainly focuses on studying the pressure- induced high-temperature-superconductivity in cuprates by using x-ray diffraction, Raman scattering, magnetic susceptibility, and electric transport measurements.

Selected Publications:

Jie Xin, Alexander G. Gavriliuk, Jia-Wei Hu, Jian-Bo Zhang, Gen-Da Gu, Alexander F. Goncharov, Hai-Qing Lin, Ho-Kwang Mao, Xiao-Jia Chen, Viktor V. Struzhkin. Lattice Effect on the Superexchange Interaction in Antiferromagnetic Bi₂Sr₂CaCu₂O₈. J. Phys. Chem. C 128, 17, 7223–7234 (2024).

Jie Xin, Jian-Bo Zhang, Gen-Da Gu, Alexander G. Gavriliuk, Igor Lyubutin, Viktor V. Struzhkin, Xiao-Jia Chen. Structural and phonon anomalies in the superconducting Bi₂Sr₂CaCu₂O₈ with varying doping level at high pressures. EPL 146 56001 (2024).

Zixing Wang, Jianbo Zhang, Hongxing Song, Sergey Ivanov, Roland Mathieu, Huayun Geng, Zhengyong Ren, Peter Lazorf, Lei Liu. Pressure-induced metallization in Pb₃Mn₇O₁₅. Journal of Alloys and Compounds 1003 (2024) 175624.

Jian Bo Zhang, Viktor V Struzhkin, Wenge Yang, Ho Kwang Mao, Hai Qing Lin, Yong Chang Ma, Nan Ling Wang, Xiao Jia Chen, Effects of pressure and distortion on superconductivity in Tl₂Ba₂CaCu₂O_8+δ. J. Phys. Condens. Matter 27, 445701(2015).

Zhang Jian Bo, Tang Ling Yun, Zhang Jiang, Qin ZhenXing, Zeng XiaoJing, Liu Jing, Wen Jin Sheng, Xu Zhi Jun, Gu Genda and Chen Xiao Jia, Pressure induced isostructural phase transition in Bi₂Sr₂CaCu₂O_8+δ. Chinese Physics C 37, 088003 (2013).

Shibing Wang, Jian Bo Zhang, Jinyuan Yan, Xiao Jia Chen, Viktor Struzhkin, Wojciech Tabis, Neven Bariˇsic, Mun K. Chan, Chelsey Dorow, Xudong Zhao, Martin Greven, Wendy L. Mao, and Ted Geballe, Strain derivatives of Tc in HgBa₂CuO_4+δ: The CuO₂ plane alone is not enough. Phys. Rev. B 89, 024515 (2014).

Zhen-Xing Qin, Jian Bo Zhang, Ivan Troyan, Taras Palasyuk, Mikhail Eremets, and Xiao Jia Chen, High pressure study of tetramethylsilane by Raman spectroscopy. J. Chem. Phys. 136, 024503 (2012).

______________________

Pengfei Shan

Postdoctoral Associate, HPSTAR

No 10. Dongbeiwang West Road,

Haidian, Beijing, China

Email: pengfei.shan@hpstar.ac.cn

　　Dr. Pengfei Shan graduated from Harbin Institute of Technology for a B. S. degree, and then got a Ph. D. degree from Institute of Physics, Chinese Academy of Sciences supervised by Prof. Jinguang Cheng in 2024. His research focuses on exploring novel superconducting materials under high pressure, with a particular emphasis on hydride superconductors, via electrical transport measurements combining with Laser Heating synthetic method.

______________________

Dong Wang

Ph.D student, HPSTAR

No 10. Dongbeiwang West Road,

Haidian, Beijing, China

Email: dong.wang@hpstar.ac.cn

　　Dong Wang obtained his B.E. degree in Material Chemistry at North China University of Science and Technology in 2014. He completed his joint training Master degree in Material Physics and Chemistry at Shanghai University and Shanghai Institute of Ceramics (SICCAS) in 2017. He then worked as a research assistant at SICCAS during 2017-2019, working on the new materials and crystal structures. Now, he is a PhD student under the supervision of Prof. Yang Ding.

______________________

Caoshun Zhang

Master student, B.S., HPSTAR

No 10. Dongbeiwang West Road,

Haidian, Beijing, China

Email: caoshun.zhang@hpstar.ac.cn

　　Caoshun Zhang obtained his B.S from the University of Science and Technology Beijing in 2021. His major is material physics. he joined Prof. Yang Ding's group as a master student in 2021. His research interests lie in topological insulator (TI), and he will focus on the study of pressure-induced topological phase transition and Kagome materials.

______________________

Chunsheng Xia

Master student, B.S., HPSTAR

No 10. Dongbeiwang West Road,

Haidian, Beijing, China

Email: Chunsheng.xia@hpstar.ac.cn

　　Chunsheng Xia obtained his B.S. degree from Shandong University in 2021, majoring in applied physics. He is now a master student in Prof. Yang Ding's group, where his research focuses on the electrical and magnetic properties of matter under extreme conditions, and he is in charge of the cryogenic system in the group.

______________________

Weicheng Guo

Master Student, B.S., HPSTAR

No 10. Dongbeiwang West Road,

Haidian, Beijing, China

Email: weicheng.guo@hpstar.ac.cn

　　Weicheng Guo obtained his B.S. degree from Southern University of Science and Technology in 2021, majoring in Physics. He joined Prof. Yang Ding’s group as a master student in 2022. His research interest is in two-dimensional layered vdW materials, and he will focus on their magnetic and transport properties under extreme conditions.

______________________

Pengyu Wang

Master student, HPSTAR

No 10. Dongbeiwang West Road,

Haidian, Beijing, China

Email: pengyu.wang@hpstar.ac.cn

　　Pengyu Wang obtained his B.E. degree in Nanjing University of Science and Technology in 2023. His major is applied physics. He joined Prof. Yang Ding’s group as a master student in 2023. His interest lies in exploring the electronic and magnetic properties of materials under extreme conditions.

-----------------------------------------------------------------------------------------------------------------------

Alumini:

Dr. Takeshi Nakagawa

Postdoctoral Associate (2018-2023), HPSTAR

Email: takeshi.nakagawa@hpstar.ac.cn

Now he is a specialist associate staff scientist at HPSTAR.

　　Dr. T Nakagawa received his Ph.D. in Chemistry from University of Durham, United Kingdom, in 2010. He joined HPSTAR as a postdoctoral research fellow in September 2018. His research interests focused on the study of characteristics of carbon-rich organic molecular solids, such as Polycyclic Aromatic Hydrocarbons and Fullerenes. He combined Chemistry and High Pressure Science to discover novel physical properties and enhance their functionalities. He continues to work in HPSTAR as Specialist associate staff scientist.

Selected publications (2018-2023)

(1) T. Nakagawa, Y. Ding et al., Full-color luminescence from single-component hydrocarbon crystal: RGB emission by altering molecular packing under pressure. Adv. Opt. Mater. (2023) DOI: 10.1002/adom.202300586

(2) T. Nakagawa, Y. Ding et al., Pressure-induced valence fluctuation in CsEuF3: from divalent Eu valence to trivalent Eu valence state. J. Phys. Chem. Solids, (2023) 175, 111202

(3) T. Nakagawa, Y. Ding et al., Piezochromic luminescence of dicoronylene: Key for revealing hidden Raman modes at high pressure. Carbon (2022) 197, 563-569. DOI: 10.1016/j.carbon.2022.06.009.

(4) N. Yoshikane, T. Nakagawa et al., Pressure-induced valence transition in the mixed-valence (Sm1/3Ca2/3)2.75C60 fulleride, Mater. Chem. Front., (2020), 4, 3521-3528. DOI: 10.1039/D0QM00707B.

______________________

Xia Yin

Master student, B.S., HPSTAR

No 10. Dongbeiwang West Road,

Haidian, Beijing, China

Email: xia.yin@hpstar.ac.cn

Ms. Xia Yin obtained her B.S from the Shan Dong University in 2016. Her major is highenergy physics and materials physics.She joined Prof. Yang Ding's group as a master student in 2017,and will learn about the the X-ray science and high-pressure condensed-matter physics.

______________________

Dr. Bijuan Chen

Postdoctoral Associate (2016-2022), HPSTAR

No 10. Dongbeiwang West Road,

Haidian, Beijing, China

Email: Bijuan.chen@hpstar.ac.cn

Now she is a postdoc at Harvard University.

　　Dr. Bijuan Chen was awarded her PhD degree incondensed matter physics from Institute of Physics, Chinese Academy of Sciences, China, in June 2016 under the supervision of Prof. Changqing Jin, and obtained her bachelor’s degree in 2011 at Sichuan University. From 2012 to 2015, she was awarded three times of Institute Chief Scholarship of IOP, CAS and two times of Excellent Student Cadre award of UCAS. Her research interestin HPSTAR mainly focus on the studies of mixed valent behaviors, exotic magnetism, quantum phase transition and superconductivity in f electron materials under extreme pressures using X ray spectroscopy and neutron scattering.

Selected publications

1) B. J. Chen*, E. M. Pärschke, W. C. Chen, B. Scoggins, B. Li, M. Balasubramanian, S. Heald, J. B. Zhang, H. S. Deng, R. Sereika, Y. A. Sorb, X. Yin, Y. Bi, K. Jin, Q. Wu, C.-C. Chen, Y. Ding*, and H.-K. Mao, “Direct Probing of Cerium 4f-states across the Volume Collapse Transition”, J. Phys. Chem. Lett. 10, 7890−7897(2019)

2) W. Han, B. J. Chen, B. Gu, G. Q. Zhao, S. Yu, X. C. Wang, Q. Q. Liu, Z. Deng, W. M. Li, J. F. Zhao, L. P. Cao, Y. Peng, X. Shen, X. H. Zhu, R. C. Yu, S. Maekawa, Y. J. Uemura & C. Q. Jin*, “Li(Cd, Mn)P: a new cadmium based diluted ferromagnetic semiconductor with independent spin & charge doping”, Sci. Rep. 9, 7490 (2019)

3) B. J. Chen, Z. Deng, W. M. Li, M. R. Gao, Q. Q. Liu , B. Frandsen, S. Cheung, L. Liu, C. Ding, S. L. Guo, F. L. Ning, T. J. S. Munsie, M. Wilson, Y. P. Cai, G.M. Luke, Z. Guguchia , S. Yonezawa, Y. J. Uemura, Zhi Li and C. Q. Jin*, “New fluoride-arsenide diluted magnetic semiconductor (Ba,K)F(Zn,Mn)As with decoupled spin charge doping”, Sci. Rep. 6, 36578 (2016)

4) B. J. Chen, Z. Deng, W. M. Li, M. R. Gao, …, Q. Q. Liu, and C. Q. Jin*, “(Sr,Na)(Cd,Mn)₂As₂: A cadmiun-based bulk form diluted magnetic semiconductor with the hexagonal CaAl₂Si₂ type structure”, J. Appl. Phys. 120, 083902 (2016)

5) B. J. Chen, Z. Deng, W. M. Li, M. R. Gao, J. F. Zhao, G. Q. Zhao, S. Yu, X. C. Wang, Q. Q. Liu, and C. Q. Jin*, “Li(Zn,Co,Mn)As: A bulk form diluted magnetic semiconductor with Co and Mn co-doping at Zn sites”, AIP Advances 6, 115014 (2016)

6) B. J. Chen, Z. Deng, X. C. Wang, S. M. Feng, Z. Yuan, S. J. Zhang, Q. Q. Liu and C. Q. Jin*, “Structural stability at high pressure and electronic properties of BaFZnAs: a new candidate of host material of DMS”, Chin. Rev. B 25,077503 (2016)

7) B. J. Chen, K. Zhao, Z. Deng, W. Han, J. L. Zhu, X. C. Wang, Q. Q. Liu, B. Frandsen, L. Liu, S. Cheung, F. L. Ning, T. J. S. Munsie, T. Medina, G. M. Luke, J. P. Carl, J. Munevar, Y. J. Uemura and C. Q. Jin*, “(Sr,Na)(Zn,Mn)₂As₂: A diluted ferromagnetic semiconductor with the hexagonal CaAl₂Si₂ type structure”, Phys. Rev. B 90, 155202 (2014)

______________________

Hongshan Deng

Ph.D student (2016-2021), Master Degree, HPSTAR

No 10. Dongbeiwang West Road,

Haidian, Beijing, China

Email: hongshan.deng@hpstar.ac.cn

Now he is a postdoc at National University of Singapore.

　　Hongshan Deng obtainedhis Master Degree of condensed matter physics from the Hunan Normal University in2016. He was a joint student at group EX06, Institute of Physics, Chinese academyof Sciences from 2014.2 to 2016.4 and majored in high pressure experimentphysics. His experience includessamplesynthesis using high temperature and high pressure and conventionalsolid state method; structure measurement using x ray diffraction; transport,thermal and magnetic properties measurement using the physical propertymeasurement system (PPMS) and superconducting quantum interference devicemagnetometer (MPMS). He is also familiar with software suchas Powder X, Diamond, Origin and GSAS and Fullprof. During his graduate study, hehas being focused on the strongly correlated electron systems (mainly 5dOs series oxides); multiferroic materials and multifunctional spintronicmaterials. He is now under the supervision of Dr. Yang Ding and would pursuehis PhD degree in future.

Selected Publications:

Hongshan Deng, etal.,. Strong enhancement of spin ordering by A site magnetic ions inferrimagnet CaCu₃Fe₂Os₂O₁₂, Phys. Rev. B 94, 024414(2016).

______________________

sorb photo

Dr. Raimundas Sereika

Postdoctoral Associate (2016-2020), HPSTAR

No 10. Dongbeiwang West Road,

Haidian, Beijing, China

Email: raimundas.sereika@hpstar.ac.cn

Now he is a postdoc at the University of Alabama at Birmingham.

　　Dr. Raimundas Sereika received his Ph.D. in condensed matter physics from the Vilnius University of Lithuania in 2013. Since then he has worked as a scientific researcher and Lecturer at the Faculty of Physics and Technology of Lithuanian University of Educational Sciences. In 2016, he joined HPSTAR as postdoctoral researcher. Dr. Sereika’s research is in the area of condensed matter and materials physics. His previous experiences include preparation and characterization of various semiconducting, ferroelectric materials. The main area of interest phase transitions, lattice dynamics, and electronic structure. Research conducted using standard laboratory techniques in line with quantum mechanical modeling based on Density Functional Theory. In recent years, scientific focus was mostly on material’s characterization at extreme conditions – high pressures and varied temperature through the synchrotron facilities at Advanced Photon Source, Advanced Light Source in USA and Spring-8 in Japan.

Selected Publications:

R. Sereika*, K. Yamaura, Y. Jia, S. Zhang, C. Jin, H. Yoon, M. Y. Jeong, M. J. Han, D. L. Brewe, S. M. Heald, S. Sinogeikin, Y. Ding*, H-k. Mao, Anomalous behavior of the quasi-one-dimensional quantum material Na₂OsO₄ at high pressure, Materials Today Physics 8, 18 – 24 (2019).

R. Sereika*, W. Wu, C. Park, C. Kenney-Benson, D. L. Brewe, S. M. Heald, J. Zhang, S. Yesudhas, H. Deng, B. Chen, J. Luo, Y. Ding*, H-k. Mao, Prolonged mixed phase induced by high pressure in MnRuP, Phys. Rev. B 97, 214103 (2018).

R. E. Brandt, J. R. Poindexter, P. Gorai, R. C. Kurchin, R. L. Z. Hoye, L. Nienhaus, M. W. B. Wilson, J. A. Polizzotti, R. Sereika, R. Žaltauskas, L. C. Lee, J. L. MacManus-Driscoll, M. Bawendi, V. Stevanović, T. Buonassisi*, Searching for “Defect-Tolerant” Photovoltaic Materials: Combined Theoretical and Experimental Screening, Chem. Mater. 29 (11), 4667 – 4674 (2017).

A. Audzijonis, R. Žaltauskas, R. Sereika*, V. Lapeika, L. Žigas, Birefringence of SbSI and SbSeI crystals at the region of antiferroelectric phase transition, Phase transitions 90 (3), 312 – 316 (2017).

R. Sereika*, S. Kaciulis, A. Mezzi, M. Brucale, Chemical composition study of vanadium pentoxide xerogels doped by bovine albumin, Surf. Rev. Lett. 23 (6), 1650058 (2016).

A. Audzijonis, R. Sereika*, L. Žigas, R. Žaltauskas, Dielectric and electrical properties of SbSI and SbSeI single crystals in the region of antiferroelectric phase transition, J. Phys. Chem. Solids. 83, 117 – 120 (2015).

R. Rimeika, A. Sereika, D. Čiplys*, R. Sereika, V. Bondarenka, M. Shur, Acoustoelectric investigation of V₂O₅·nH₂O thin film transition from wet gel to xerogel, J. Non-Cryst. Solids 425 (1), 24 – 27 (2015).

R. Sereika*, V. Bondarenka, R. Rimeika, A. Sereika, D. Čiplys, Impact of humidity on surface acoustic wave propagation in vanadium pentoxide xerogel - lithium niobate structure, Jpn. J. Appl. Phys. 53 (11), 118004 (2014).

A. Audzijonis, R. Sereika*, The thermodynamic functions of ferroelectric and paraelectric SbSI, Phase transitions 87 (5), 509 – 514 (2014).

______________________

Sorb, Y. A.：postdoc at Department of Physics and Astronomy, University of Missouri, Missouri (Mizzou) .

The mission of XSG group is to study the structural, electronic, and magnetic properties of condensed matter systems at extreme conditions using novel synchrotron X-ray techniques, assisted with transport, optical, and theoretical approaches. Particular interest is placed on electronic and magnetic structure and phase behavior, as well as electronic excitations in electron stronglycorrelated systems (such as high-T_c superconductors, CMR, Mott-insulators, spin orbit coupled correlated iridates) at high pressure.

Project one: High-pressure effects on superconductivity in cuprates

Motivation: since it was discovered nearly 30 years ago, high pressure superconductivity (HTSC) in cuprates has been studied mainly by doping method. However, pressure could become another powerful tool to study the HTSC, since it can change the lattice parameter continuously without altering the chemistry of the system, which is incontrast to the doping method.

Goal: to understand the mechanism of HTSC through the study of the spin-fluctuation and stripe phase at high pressure, which are two crucial aspects for deciphering the mechanism of HTSC.

Project two: Study the pressured-induced novel quantum states in transition metal oxides

Motivation: the transition metal oxides (including 3d, 4d, and 5d oxides), having comparable scales for their kinetic energy, Coulomb interaction, and spin-orbit coupling (in 5d oxides), provide an excellent platform for studying new quantum states induced by pressure, such as spin liquid, topological insulator, Wely semi metal, confine metal, Mott transition,or even superconductivity.

Goal: Searching for the novel quantum states and understand the underlying mechanisms.

Project three: Pressures effects on the heavy-fermion systems

Motivation: During the past two decades, considerable attention has been focused on heavy fermion(HF) systems, but high pressure study remains unexplored. Pressure could have significant impacts on both Kondo effects and RKKY interaction, which could induce novel emergent phenomena.

Goal: we will focus on (1) Volume collapse of f electronmaterials; (2) Quantum criticality and quantum phase transition in heavy fermion systems; (3) Superconductivity.

Project four: Study the pressure effects on topological insulators

Motivation: topological Insulators, a new state of quantum matter known as received a great attention owing to the presence of gapless spin-filtered edge electronic states in their surfaces, which permits the dissipation less transport of charge and spin. This is also a brand new field for high pressure scientists, which could potentially have new discoveries.

Goal: Searching new quantum state and understanding the underlying physics.
New development: Compton Scattering; Quantum osillation.

Project five: study hdrides at high pressure

Rare-earth hydrides attract much attention recently due to (1) metal hydrides (MH_x) provide a promising solution for a future hydrogen-based energy system (2) they display very rich structural and electrical transitions as a function of the H concentration (that could be tuned by pressure). However, so far high-pressure study on these materials is still very limited to very low pressure regime.

Synchrotron facilities:

APS: https://www1.aps.anl.gov/

proposal submission: https://www1.aps.anl.gov/Users-Information/About-Proposals/Apply-for-Time

Spring-8: http://www.spring8.or.jp/en/

proposal submission: https://user.spring8.or.jp/apps/mypage/

ESRF: http://www.esrf.eu/

proposal submission: http://www.esrf.eu/UsersAndScience/UserGuide/Applying

NSLS-II: https://www.bnl.gov/ps/nsls2/about-NSLS-II.php

proposal submission: https://www.bnl.gov/ps/

PETRA-III: http://petra3.desy.de/index_eng.html

proposal submission: https://door.desy.de/door/

NSRRC_TPS: http://tpsportal.nsrrc.org.tw/

NSRRC_TLS: http://portal.nsrrc.org.tw/

SSRF:http://ssrf.sinap.ac.cn/

Other links:

X-ray booklet : http://xdb.lbl.gov/

X-ray interaction with Matters: http://henke.lbl.gov/optical_constants/

XAS: http://xafs.org/defaultsite

pressure tools: http://kantor.50webs.com/ruby.htm

Publications

2024

120. Above-Room-Temperature Ferroelectricity and Giant Second Harmonic Generation in 1D vdW NbOI₃.

Yuqiang Fang, Yue Liu, Niuzhuang Yang, Gang Wang, Wen He, Xinyi Zhou, Shian Xia, Dong Wang, Jierui Fu, Jiapeng Wang, Yang Ding, Ting Yu, Chengyan Xu, Liang Zhen, Junhao Lin, Gaoyang Gou, Yang Li, and Fuqiang Huang.

Adv. Mater., 2024, 2407249. PDF

119. Quantifying Structural Polarization by Continuous Regulation of Lone-Pair Electron Expression in Molecular Crystals.

Kejun Bu, Xin Feng, Dong Wang, Tonghuan Fu, Yiran Ma, Songhao Guo, Hui Luo, Yang Ding, Tianyou Zhai, and Xujie Lü.

J. Am. Chem. Soc., 10.1021/jacs.4c05927 (2024).

118. Evolution of superconducting-transition temperature with superfluid density and conductivity in pressurized cuprate superconductors.

Jinyu Zhao, Shu Cai, Yiwen Chen, Genda Gu, Hongtao Yan, Jing Guo, Jinyu Han, Pengyu Wang, Yazhou Zhou, Yanchun Li, Xiaodong Li, Zhian Ren, Qi Wu, Xingjiang Zhou, Yang Ding, Tao Xiang, Ho-kwang Mao, Liling Sun.

Chinese Phys. Lett. 41, 047401 (2024).

117. A novel method for determining the resistivity of compressed superconducting materials.

Liling Sun,* Qi Wu, Shu Cai, Yang Ding, Ho-kwang Mao.

Matter Radiat. Extrem., 9, 043001 (2024). PDF

116. Exciton engineering of 2D Ruddlesden–Popper perovskites by synergistically tuning the intra and interlayer structures.

Songhao Guo, Willa Mihalyi-Koch, Yuhong Mao, Xinyu Li, Kejun Bu, Huilong Hong, Matthew P. Hautzinger, Hui Luo, Dong Wang, Jiazhen Gu, Yifan Zhang, Dongzhou Zhang, Qingyang Hu, Yang Ding, Wenge Yang, Yongping Fu, Song Jin & Xujie Lü.*

Nat. Commun., 15, 3001 (2024). PDF

115. Unveiling a novel metal-to-metal transition in LuH₂: Critically challenging superconductivity claims in lutetium hydrides.

Dong Wang, Ningning Wang, Caoshun Zhang, Chunsheng Xia, Weicheng Guo, Xia Yin, Kejun Bu, Takeshi Nakagawa, Jianbo Zhang, Federico Gorelli, Philip Dalladay-Simpson, Thomas Meier, Xujie Lü, Liling Sun, Jinguang Cheng, Qiaoshi Zeng, Yang Ding,* and Ho-kwang Mao.

Matter Radiat. Extrem., 9, 037401 (2024). PDF

Highlight: HPSTAR MRE

114. Pressure-induced superconductivity in a novel germanium allotrope.

Liangzi Deng#,* Jianbo Zhang#, Yuki Sakai, Zhongjia Tang, Moein Adnani, Rabin Dahal, Alexander P. Litvinchuk, James R. Chelikowsky, Marvin L. Cohen, Russell J. Hemley, Arnold Guloy, Yang Ding, Ching-Wu Chu.*

Mat. Today Phys., 41, 101338 (2024). PDF

2023

113. Origin of the near-room temperature resistance transition in lutetium with H₂/N₂ gas mixture under high pressure.

Di Peng, Qiaoshi Zeng, Fujun Lan, Zhenfang Xing, Zhidan Zeng, Xiaoxing Ke, Yang Ding, Ho-kwang Mao.

Natl. Sci. Rev., 2023, nwad337. PDF

112. Photophysical behavior of triethylmethylammonium tetrabromoferrate(III) under high pressure.

Takeshi Nakagawa, Yang Ding, Kejun Bu, Xujie Lü, Haozhe Liu, Anna Moliterni, Jasminka Popović, Marian Mihalik, Zvonko Jagličić, Matúš Mihalik, and Martina Vrankić.*

Inorg. Chem., DOI: 10.1021/acs.inorgchem.3c02607 (2023). PDF

111. Robust magnetism against pressure in non-superconducting samples prepared from lutetium foil and H₂ / N₂ gas mixture.

Jing Guo, Shu Cai, Dong Wang, Haiyun Shu, Liuxiang Yang, Pengyu Wang, Wentao Wang, Huanfang Tian, Huaixin Yang, Yazhou Zhou, Jinyu Zhao, Jinyu Han, Jianqi Li, Qi Wu, Yang Ding, Wenge Yang, Tao Xiang, Ho-kwang Mao, Liling Sun*.

Chinese Phys. Lett., 40, 097401 (2023).

110. Full-color luminescence from single-component hydrocarbon single crystal: RGB emission by altering molecular packing under pressure.

Takeshi Nakagawa,* Songhao Guo, Martina Vrankić, Philip Dalladay-Simpson, Kejun Bu, Dong Wang, Xia Yin, Ke Liu, Hongshan Deng, Jianbo Zhang, Chunsheng Xia, Yonggang Wang, Xujie Lü, Ho-kwang Mao, Yang Ding.*

Adv. Opt. Mater., 11 (20) 2300586 (2023). PDF

Highlight: HPSTAR Adv. Opt. Mater.

109. The near-room-temperature upsurge of electrical resistivity in Lu-H-N is not superconductivity, but a metal-to-poor-conductor transition.

Di Peng, Qiaoshi Zeng,* Fujun Lan, Zhenfang Xing, Yang Ding, Ho-kwang Mao.*

Matter Radiat. Extrem., 8, 058401 (2023).

108. Anomalous charge transfer from organic ligands to metal halides in zero-dimensional [(C₆H₅)₄P]₂SbCl₅ enabled by pressure-induced lone pair-π interaction.

Hui Luo, Kejun Bu, Yanfeng Yin, Dong Wang, Cuimi Shi, Songhao Guo, Tonghuan Fu, Jiayuan Liang, Bingyan Liu, Dongzhou Zhang, Liang-Jin Xu, Qingyang Hu, Yang Ding, Shengye Jin, Wenge Yang, Biwu Ma, Xujie Lü.*

Angew. Chem. Int. Edit., e202304494 (2023).

107. Manipulating peierls distortion in van der Waals NbOX₂ maximizes second-harmonic generation.

Tonghuan Fu, Kejun Bu, Xuzhou Sun, Dong Wang, Xin Feng, Songhao Guo, Zongdong Sun, Yuqiang Fang, Qingyang Hu, Yang Ding, Tianyou Zhai, Fuqiang Huang,* Xujie Lü.*

J. Am. Chem. Soc., 145, 30, 16828–16834 (2023).

106. Pressure tuning of the rare-earth monopnictide DySb.

Chao Jiang, Dong Wang, Desheng Wu, Meiyi Li, Jianlin Luo, Tao Hu, Meilun Li, Wenli Pei, Yang Ding, Peigang Li, Xiaojia Chen, Hong Xiao.*

Phys. Rev. B, 107, 214517 (2023).

105. Ultrafast dynamics in photo-excited mott insulator Sr₃Ir₂O₇ at high pressure.

Xia Yin, Jianbo Zhang, Dong Wang, Takeshi Nakagawa, Chunsheng Xia, Caoshun Zhang, Weicheng Guo, Jun Chang, Yang Ding.*

Chinese Phys. B, DOI: 10.1088/1674-1056/acdc8c (2023).

104. Universal anomaly of dynamics at phase transition points induced by Pancharatnam-Berry phase.

Jia-Yuan Zhang, Xia Yin, Ming-Yu Liu, Jize Zhao, Yang Ding and Jun Chang.*

Physica Scripta, 98, 055927 (2023). PDF

103. Polarization-independent second harmonic generation in 2D van der waals kagome Nb₃SeI₇ crystals.

Yuqiang Fang, Xin Feng, Dong Wang, Yang Ding, Tianquan Lin, Tianyou Zhai,* and Fuqiang Huang.*

Small, 2023, 2207934 (2023). PDF

102. Local structural investigation of non-crystalline materials at high pressure: the case of GeO₂ glass.

Xinguo Hong,* Matt Newville, Yang Ding.

Journal of Physics: Condensed Matter, 35, 164001 (2023).

101. Pressure-induced valence fluctuation in CsEuF₃: From divalent Eu valence to trivalent Eu valence state.

Takeshi Nakagawa,* Martina Vrankić, Melita Menelaou, Raimundas Sereika, Dong Wang, Jianbo Zhang, Hirofumi Ishii, Nozomu Hiraoka, Yang Ding.*

Journal of Physics and Chemistry of Solids, 175, 111202 (2023). PDF

100. Enhanced second-harmonic generation of van der Waals CuInP₂S₆ via pressure-regulated cationic displacement.

Kejun Bu, Tonghuan Fu, Ziwan Du, Xin Feng, Dong Wang, Zhongyang Li, Songhao Guo, Zongdong Sun, Hui Luo, Gang Liu, Yang Ding, Tianyou Zhai, Qian Li, and Xujie Lü.*

Chemistry of Materials, 35, 1, 242-250 (2023). PDF

2022

99. Nested order-disorder framework containing a crystalline matrix with self-filled amorphous-like innards.

Kejun Bu, Qingyang Hu, Xiaohuan Qi, Dong Wang, Songhao Guo, Hui Luo, Tianquan Lin, Xiaofeng Guo, Qiaoshi Zeng, Yang Ding, Fuqiang Huang, Wenge Yang, Ho-Kwang Mao, Xujie Lü.*

Nature Communications, 13, 4650 (2022). PDF

Highlight: HPSTAR

98. On the structure of SbTeI.

Raimundas Sereika,* Raimundas Žaltauskas, Sarunas Varnagiris, M. Urbonavičius, Fuyang Liu, Yang Ding, Darius Milčius.

Journal of Applied Physics, 132, 015106 (2022). PDF

97. Novel valence transition in elemental metal europium around 80 GPa.

Bijuan Chen,* Mingfeng Tian, Jurong Zhang, Bing Li, Yuming Xiao, Paul Chow, Curtis Kenney-Benson, Hongshan Deng, Jianbo Zhang, Raimundas Sereika, Xia Yin, Dong Wang, Xinguo Hong, Changqing Jin, Yan Bi, Hanyu Liu, Haifeng Liu, Jun Li, Ke Jin, Qiang Wu, Jun Chang,* Yang Ding,* and Ho-kwang Mao.

Physical Review Letters, 129, 016401 (2022). PDF

Highlight: HPSTAR 《中国科学报》

96. Piezochromic luminescence of dicoronylene: Key for revealing hidden Raman modes at high pressure.

Takeshi Nakagawa,* Philip Dalladay-Simpson, Kejun Bu, Songhao Guo, Martina Vrankić, Dong Wang, Raimundas Sereika, Jianbo Zhang, Caoshun Zhang, Qingyang Hu, Xujie Lü, Yang Ding,* Ho-kwang Mao.

Carbon, 197, 563-569 (2022). PDF

CARBON-D-22-01525R1 (1).png

95. 量子材料 GaTa₄Se₈ 的基态研究.

邓宏芟, 张建波, 王东, 胡清扬, 丁阳.*

高压物理学报, 36(1), 011101 (2022). PDF

94. Pressure-induced and flaring photocatalytic diversity of ZnO particles hallmarked by finely tuned pathways.

Martina Vrankić, Ankica Šarić, Takeshi Nakagawa, Yang Ding, Ines Despotović, Lidija Kanižaj, Hirofumi Ishii, Nozomu Hiraoka, Goran Dražić, Dirk Lützenkirchen-Hecht, Robert Peter, Mladen Petravićh.

Journal of Alloys and Compounds, 894, 162444 (2022). PDF

2021

93. Future study of dense superconducting hydrides at high pressure.

Dong Wang, Yang Ding,* Ho-Kwang Mao.

Materials, 14(24), 7563 (2021). PDF

92. On-site in situ high-pressure ultrafast pump–probe spectroscopy instrument.

Y. L. Wu^†, X. Yin^†, J. Z. L. Hasaien, Z. Y. Tian, Yang Ding, and Jimin Zhao.

Review of Scientific Instruments, 92, 113002 (2021). PDF

91. 静态高压下氢的金属化研究与非弹性X射线散射技术.

李冰, 丁阳, 王霖, 翁祖谦, 杨文革, 吉诚, 杨科, 毛河光.*

高压物理学报, 35(5), 050101 (2021). PDF

90. High-pressure insulating phase of Mo₄O₁₁ with collapsed volume.

Z. Y. Liu, P. F. Shan, K. Y. Chen, Madalynn Marshall, S. Zhang, T. Yong, H. S. Deng, X. Yin, Y. Ding, H. M. Weng, Y. Uwatoko, Przemyslaw Dera, Weiwei Xie, Y. Sui,* and J.-G. Cheng.

Physical Review B, 104, 024105 (2021). PDF

89. Structural, vibrational, and electronic properties of 1D-TlInTe₂ under high pressure: a combined experimental and theoretical study.

Sorb Yesudhas,* N. Yedukondalu,* Manoj K. Jana, Jianbo Zhang, Jie Huang, Bijuan Chen, Hongshang Deng, Raimundas Sereika, Hong Xiao, Stanislav Sinogeikin, Curtis Kenney-Benson, Kanishka Biswas, John B. Parise, Yang Ding,* and Ho-kwang Mao.

Inorganic Chemistry, 60, 9320-9331 (2021). PDF

88. Metallization of Quantum Material GaTa₄Se₈ at High Pressure.

The Journal of Physical Chemistry Letters, 12, 5601−5607 (2021). PDF

Highlight: HPSTAR

87. Bain Deformation Mechanism and Lifshitz Transition in Magnesium under High Pressure.

Prutthipong Tsuppayakorn-aek, Jianbo Zhang, Wei Luo,* Yang Ding,* Rajeev Ahuja, and Thiti Bovornratanaraks.*

Phys. Status Solidi B, 258, 2000279 (2021). PDF

86. Quenchable amorphous glass-like material from VF₃.

Raimundas Sereika, Sooran Kim, Takeshi Nakagawa, Hirofumi Ishii, Yang Ding,* Ho-kwang Mao.

Dalton Transactions, 50, 3005–3010 (2021). PDF

85. Probing the electronic band gap of solid hydrogen by inelastic X-ray scattering up to 90 GPa.

Bing Li, Yang Ding, Duck Young Kim, Lin Wang, Tsu-Chien Weng, Wenge Yang, Zhenhai Yu, Cheng Ji, Junyue Wang, Jinfu Shu, Jiuhua Chen, Ke Yang, Yuming Xiao, Paul Chow, Guoyin Shen, Wendy L. Mao, and Ho-Kwang Mao.

Physical Review Letters, 126, 036402 (2021). PDF

Highlight: HPSTAR

2020

84. Crystal and electronic structure of GaTa₄Se₈ from First-principle calculations.

Shuai Zhang, Tiantian Zhang, Hongshan Deng, Yang Ding*, Yue Chen*, Hongming Weng*.

Physical Review B, 102, 214114 (2020). PDF

83. Hund-Heisenberg model in superconducting infinite-layer nickelates.

Jun Chang, Jize Zhao, Yang Ding.

The European Physical Journal B, 93, 220 (2020). PDF

82. Pressure-regulated dynamic stereochemical role of lone-pair electrons in layered Bi₂O₂S.

Kejun Bu, Hui Luo, Songhao Guo, Mei Li, Dong Wang, Hongliang Dong, Yang Ding, Wenge Yang, and Xujie Lü*.

The Journal of Physical Chemistry Letters, 11, 9702–9707 (2020). PDF

81. Origin of the isostructural electronic states of the topological insulator Bi₂Te₃.

Xinguo Hong,* Matt Newville, Yang Ding, Dongzhou Zhang, Tetsuo Irifune, Genda Gu, and Ho-Kwang Mao.

Physical Review B, 102, 134110 (2020). PDF

80. Aberrant electronic and structural alterations in pressure tuned perovskite NaOsO₃.

Raimundas Sereika, Peitao Liu, Bongjae Kim, Sooran Kim, Jianbo Zhang, Bijuan Chen, Kazunari Yamaura, Changyong Park, Cesare Franchini, Yang Ding* and Ho-kwang Mao.

npj Quantum Materials, 5, 66 (2020). PDF

Highlight: HPSTAR

79. Anisotropic superexchange through nonmagnetic anions with spin-orbit coupling.

Jun Chang, Jize Zhao, and Yang Ding.

The European Physical Journal B, 93, 159 (2020). PDF

78. 自旋-轨道耦合型莫特绝缘体Sr₂IrO₄的高压拉曼光谱.

尹霞, 张建波, 丁阳*.

高压物理学报, 34(4), 040103 (2020). PDF

77. Distinct intermediate states in the isostructural R-3m phase of the topological insulator Bi₂Se₃ at high pressure.

Xinguo Hong, Matt Newville, Yang Ding, Tetsuo Irifune, Genda Gu, and Ho-Kwang Mao.

Physical Review B, 101, 214107 (2020). PDF

76. Crystallography of low Z material at ultrahigh pressure: Case study on solid hydrogen.

Cheng Ji, Bing Li, Wenjun Liu, Jesse S. Smith, Alexander Bjǒrling, Arnab Majumdar, Wei Luo, Rajeev Ahuja, Jinfu Shu, Junyue Wang, Stanislav Sinogeikin, Yue Meng, Vitali B. Prakapenka, Eran Greenberg, Ruqing Xu, Xianrong Huang, Yang Ding, Alexander Soldatov, Wenge Yang, Guoyin Shen, Wendy L. Mao, and Ho-Kwang Mao.

Matter Radiation Extremes, 5, 038401 (2020). PDF

75. High-pressure ultrafast dynamics in Sr₂IrO₄: pressure-induced phonon bottleneck effect.

Yanling Wu^†, Xia Yin^†, Jiazila Hasaien, Yang Ding*, Jimin Zhao*.

Chinese Physics Letters (Express Letter), 37(4), 047801 (2020). PDF

Highlight: Chinese Physics Letters IOPCAS

74. Giant pressure-enhancement of multiferroicity in CuBr₂.

J. S. Zhang, Yiqi Xie, X. Q. Liu, A. Razpopov, V. Borisov, C. Wang, J. P. Sun, Y. Cui, J. C. Wang, X. Ren, Hongshan Deng, Xia Yin, Yang Ding, Yuan Li, J. G. Cheng, Ji Feng, R. Valentí, B. Normand, and Weiqiang Yu.

Physical Review Research, 2, 013144 (2020). PDF

73. Novel superstructure-phase 2D material 1T-VSe₂ at high pressure.

The Journal of Physical Chemistry Letters, 11, 380-386 (2020). PDF

Highlight: HPSTAR

2019

72. Probing cerium 4f-states across the volume collapse transition by X-ray raman scattering.

The Journal of Physical Chemistry Letters, 10, 7890−7897 (2019). PDF

Highlight: HPSTAR 《光明日报》

71. Lattice frustration in spin-orbit Mott insulator Sr₃Ir₂O₇ at high pressure.

Zhang, J., Yan, D., Sorb, Y. A., Deng, H., Xiao, H., Chen, B., Sereika, R., Yin, X., Yi, C., Shi, Y., Liu, Z., Pärschke, E. M., Chen, C.-C., Chang, J., Ding, Y*. & Mao, H.-k.

npj Quantum Materials, 4, 23 (2019). PDF

Highlight: HPSTAR 《知社学术圈》

70. Investigation of non-local screening in K-edge XANES for Pr_0.67Sr_0.33MnO₃ under high pressure.

Bangmin Zhang, Qiaoshi Zeng, Ronghui Kou, Liuxiang Yang, Hongbo Lou, Steve M. Heald, Jingsheng Chen, Yang Ding*, Cheng-Jun Sun*, Gan Moog Chow*.

Journal of Alloys and Compounds, 792, 108-115 (2019). PDF

69. Pressure-induced phase transition in the AlCoCrFeNi high-entropy alloy.

Benyuan Cheng, Fei Zhang, Hongbo Lou, Xiehang Chen, Peter K. Liaw, Jinyuan Yan, Zhidan Zeng, Yang Ding, Qiaoshi Zeng.

Scripta Materialia, 161, 88-92, (2019). PDF

68. Anomalous behavior of the quasi-one-dimensional quantum material Na₂OsO₄ at high pressure.

R. Sereika^∗, K. Yamaura, Y. Jia, S. Zhang, C. Jin, H. Yoon, M.Y. Jeong, M.J. Han, D.L. Brewe, S.M. Heald, S. Sinogeik, Y. Ding*, H.-k. Mao.

Materials Today Physics, 8, 18-24 (2019). PDF

2018

67. Pressure-driven collapse of the relativistic electronic ground state in a honeycomb iridate.

npj Quantum Materials, 35, (2018). PDF

Highlight: HPSTAR 《中国科学报》

66. Global scale uniformitarianism and catastrophism dictated by crust-to-core volatile cycles.

Hokwang Mao, Yang Ding, Duckyoung Kim, Qingyang Hu, Jin Liu, Liuxiang Yang, Wenge Yang, Li Zhang, Wendy L. Mao.

Acta Geologica Sinica-English Edition, 92, (z1):8 (2018). PDF

65. Observation of ring-like lattice modulation domain in single crystal Bi₂Sr₂CaCu₂O_8+δ using X-ray microscopy.

Zhonghou Cai, Yang Ding.

Microscopy and Microanalysis, 24, (Suppl 2) (2018). PDF

64. Evolution of a novel ribbon phase in optimally doped Bi₂Sr₂CaCu₂O_8+δ at high pressure and its implication to high T_c superconductivity.

The Journal of Physical Chemistry Letters, (2018), 9, 4181-4188. PDF

Highlight: HPSTAR 《中国科学报》

63. Prolonged mixed phase induced by high pressure in MnRuP.

Raimundas Sereika*, Wei Wu, Changyong Park, Curtis Kenney Benson, Dale L. Brewe, Steve M. Heald, Jianbo Zhang, Sorb Yesudhas, Hongshan Deng, Bijuan Chen, Jianlin Luo, Yang Ding*, and Ho-kwang Mao.

Physical Review B, 97, 214103 (2018). PDF

62. Solids, liquids, and gases under high pressure.

H-K. Mao, X.Jia. Chen, Y. Ding, B. Li, and L. Wang.

Reviews of Modern Physics, 90, 015007 (2018). PDF

Highlight: HPSTAR

2017

61. Shining X-ray light on the volume collapse phenomenon of cerium metal.

Brandon Scoggins, Bijuan Chen, Yang Ding, Cheng-Chien Chen.

Bulletin of the American Physical Society, 62, W1. 00065 (2017).

2016

60. High-heat-load monochromator options for the RIXS beamline at the APS with the MBA lattice.

Zunping Liu, Thomas Gog, Stanislav A. Stoupin, Mary H. Upton, Yang Ding, JungHo Kim, Diego M. Casa, Ayman H. Said, Jason A. Carter, and Gary Navrotski.

AIP Conference Proceedings, 1741, 040046 (2016). PDF

59. Pressure-induced confined metal from the mott insulator Sr₃Ir₂O_7.

Y. Ding*, L Yang, Cheng-Chien Chen, H-S. Kim, Myung Joon Han, W. Luo, Z. Feng, M. Upton, D. Casa, J. Kim, T. Gog, Z. Zeng, G. Cao, H-k. Mao, and M. v. Veenendaal.

Physical Review Letters, 116, 216402 (2016). PDF

Highlight: HPSTAR

2015

58. Focusing polycapillary to reduce parasitic scattering for inelastic x-ray measurements at high pressure.

P. Chow, Y. Xiao, E. Rod, L. Bai, G. Shen, S. Sinogeikin, N. Gao, Y. Ding, H.-k. Mao.

Review of Scientific Instruments, (2015).

57. Pressure-induced antiferrodistortive phase transition in SrTiO₃ : common scaling of soft-mode with pressure and temperature.

Weng, Shih-Chang; Xu, Ruqing; Fang, Xinyue; Said, Ayman; Leu, Bogdan; Ding, Yang; Hong, Hawoong; Abbamonte, Peter; Chang, S. -L.; Chiang, T. -C..

APS March Meeting, 2015, abstract id. A34.010.

56. Charge disproportionation and the pressure-induced insulator–metal transition in cubic perovskite PbCrO₃.

J. Cheng, K. E. Kweon, S. A. Larregola, Y. Ding, Y. Shirako, L. G. Marshall, Z. Y. Li, X. Li, A. M. D. Santos, M. R. Suchomel, K. Matsubayashi, Y. Uwatoko, G. S. Hwang, J. B. Goodenough, J. S. Zhou.

Proceedings of the National Academy of Sciences, 112, 1670-1674 (2015).

2014

55. Pressure induced antiferrodistortive phase transition in SrTiO₃: Common scaling of soft-mode with pressure and temperature.

S.-C. Weng, R. Xu, A. H. Said, B. M. Leu, Y. Ding, H. Hong, X. Fang, M. Y. Chou, A. Bosak, P. Abbamonte, S. L. Cooper, E. Fradkin, S. L. Chang, T. C. Chiang.

Europhysics Letters, 107, 36006 (2014).

54. Corrigendum to "Elastic moduli of polycrystalline Li₁₅Si₄ produced in lithium ion batteries" [J. Power Sources 242 (2013) 732-735].

Zeng, Zhidan; Liu, Nian; Zeng, Qiaoshi; Ding, Yang; Qu, Shaoxing; Cui, Yi; Mao, Wendy L..

Journal of Power Sources, 253, p. 431-431.

53. Pressure Evolution of X-ray Raman Spectra in a Novel Monoclinic V₂O₃ Metal.

Chen, Cheng-Chien; Ding, Yang; Balasubramanian, Mahalingam; Gordon, Robert; Heald, Steve M.; Gog, Thomas; Van Veenendaal, Michel.

APS March Meeting, 2014, abstract id. M47.005.

52. Elastic moduli of polycrystalline Li₁₅Si₄ produced in lithium ion batteries (vol 242, pg 732, 2013).

Zeng ZD, Liu N, Zeng QS, Ding Y, Qu SX, Cui Y, Mao WL.

Journal of Power Sources, 253, 431-431, 2014.

51. Novel high-pressure monoclinic metallic phase of V₂O₃.

Y. Ding, C.-C. Chen, Q. Zeng, H.-S. Kim, M. J. Han, M. Balasubramanian, R. Gordon, F. Li, L. Bai, D. Popov.

Physical Review Letters, 112, 056401 (2014). PDF

2013

50. Elastic moduli of polycrystalline Li₁₅Si₄ produced in lithium ion batteries.

Z. Zeng, N. Liu, Q. Zeng, Y. Ding, S. Qu, Y. Cui, W. L. Mao.

Journal of Power Sources, 242, 732-735 (2013).

49. High pressure x-ray diffraction and Raman spectra study of V₂O₃.

Ligang Bai, Michael Pravica, Yusheng Zhao, Serena Corr, Yang Ding, Stas Sinogeikin, Yue Meng, Changyong Park, Guoyin Shen.

Topical Conference on the Shock Compression of Matter, 2013, abstract id. M1.018.

2012

48. Long-range ordered carbon clusters: a crystalline material with amorphous building blocks.

L. Wang, B. Liu, H. Li, W. Yang, Y. Ding, S. V. Sinogeikin, Y. Meng, Z. Liu, X. C. Zeng, W. L. Mao.

Science, 337, 825-828 (2012).

47. Calcium with the β- in structure at high pressure and low temperature.

B. Li, Y. Ding, W. Yang, L. Wang, B. Zou, J. Shu, S. Sinogeikin, C. Park, G. Zou, H.-k. Mao.

Proceedings of the National Academy of Sciences, 109, 16459-16462 (2012).

46. Uncover the nature of cubic-rhombohedral transition in Fe_1-xO.

Qingyang Hu, Yang Ding, Howard Sheng.

2012, Poster_APS.

45. Spin-ordering mediated orbital hybridization in CoO at high pressures.

Y. Ding, J. Fernandez-Rodriguez, J. Kim, F. Li, D. Casa, M. Upton, T. Gog, h.-k. Mao, M. Van Veenendaal.

Physical Review B, 86, 094107 (2012). PDF

44. Nanoscale diffraction imaging of the high-pressure transition in Fe_1−xO.

Y. Ding, Z. Cai, Q. Hu, H. Sheng, J. Chang, R. J. Hemley, W. L. Mao.

Applied Physics Letters, 100, 041903 (2012). PDF

43. Pressure-induced tuning of a magnetic phase separation in Nd_0.53Sr_0.47MnO₃.

M. Baldini, Y. Ding, S. Wang, Y. Lin, C. A. Tulk, A. M. Dos Santos, J. F. Mitchell, D. Haskel, W. L. Mao.

Physical Review B, 86, 094407 (2012).

2011

42. Long-range topological order in metallic glass.

Q. Zeng, H. Sheng, Y. Ding, L. Wang, W. Yang, J.-Z. Jiang, W. L. Mao, H.-K. Mao.

Science, 332, 1404-1406 (2011). PDF

41. Studying single nanocrystals under high pressure using an X-ray nanoprobe.

L. Wang, Y. Ding, U. Patel, W. Yang, Z. Xiao, Z. Cai, WX. L. Mao, H.-k. Mao.

Review of Scientific Instruments, 82, 043903 (2011).

40. Electronic dynamics and plasmons of sodium under compression.

H.-K. Mao, Y. Ding, Y. Xiao, P. Chow, J. Shu, S. Lebègue, A. Lazicki, R. Ahuja.

Proceedings of the National Academy of Sciences, 108, 20434-20437 (2011).

39. Rhodium dihydride (RhH₂) with high volumetric hydrogen density.

B. Li, Y. Ding, D. Y. Kim, R. Ahuja, G. Zou, H.-K. Mao.

Proceedings of the National Academy of Sciences, 108, 18618-18621 (2011).

38. High pressure EXAFS measurements of crystalline Ge using nanocrystalline diamond anvils.

M. Baldini, W. Yang, G. Aquilanti, L. Zhang, Y. Ding, S. Pascarelli, W. L. Mao.

Physical Review B, 84, 014111 (2011).

2010

37. High-pressure neutron diffraction studies at LANSCE.

Y. Zhao, J. Zhang, H. Xu, K. A. Lokshin, D. He, J. Qian, C. Pantea, L. L. Daemen, S. C. Vogel, Y. Ding.

Applied Physics A, 99, 585-599 (2010).

36. Origin of pressure-induced polyamorphism in Ce₇₅Al₂₅ metallic glass.

Q. S. Zeng, Y. Ding, W. L. Mao, W. Yang, S. V. Sinogeikin, J. Shu, H.-k. Mao, J. Z. Jiang.

Physical Review Letters, 104, 105702 (2010).

35. High-pressure evolution of Fe₂O₃ electronic structure revealed by X-ray absorption.

S. Wang, W. L. Mao, A. P. Sorini, C.-C. Chen, T. P. Devereaux, Y. Ding, Y. Xiao, P. Chow, N. Hiraoka, H. Ishii.

Physical Review B, 82, 144428 (2010).

34. Size-Dependent Amorphization of Nanoscale Y₂O₃ at High Pressure.

L. Wang, W. Yang, Y. Ding, Y. Ren, S. Xiao, B. Liu, S. V. Sinogeikin, Y. Meng, D. J. Gosztola, G. Shen.

Physical Review Letters, 105, 95701 (2010).

33. Nanoprobe measurements of materials at megabar pressures.

L. Wang, Y. Ding, W. Yang, W. Liu, Z. Cai, J. Kung, J. Shu, R. J. Hemley, W. L. Mao, H.-k. Mao.

Proceedings of the National Academy of Sciences, 107, 6140 (2010).

32. Distortions and Stabilization of Simple Primitive Calcium at High Pressure and Low Temperature.

Y Ding, WL Mao, R Ahuja, H Mao.

Acta Crystallographica A-Foundation and Advances, 66, S49-S49.

31. High Pressure Research at the Advanced Photon Source.

G. Shen, Y. Wang, V. Prakapenka, C. J. Benmore, E. E. Alp, Y. Ding, W. Yang.

Synchrotron Radiation News, 23, 32-38 (2010).

30. Distortions and stabilization of simple-cubic calcium at high pressure and low temperature.

W. L. Mao, L. Wang, Y. Ding, W. Yang, W. Liu, D. Y. Kim, W. Luo, R. Ahuja, Y. Meng, S. Sinogeikin.

Proceedings of the National Academy of Sciences, 107, 9965 (2010).

29. Three Dimensional X-Ray Scanning Micro/Nano-Diffraction Probe for High-Pressure Research.

W Liu, HK Mao, W Yang, Y Ding, L Wang, P Dera, G Ice, P Zschack.

Minerals, Metals and Materials Society/AIME, 420 Commonwealth Dr., P. O. Box.

28. Electron Dynamics of Crystalline 4-He at High Pressures.

Eric L. Shirley, H. K. Mao, Yang Ding, Peter Eng, Yong Q. Cai, Paul Chow, Yuming Xiao, Jinfu Shu, Russell J. Hemley, Chichang Kao, Wendy L. Mao.

Nature Physics, 105, 18 (2010).

27. Electronic Structure of Crystalline He⁴ at High Pressures.

H. K. Mao, E. L. Shirley, Y. Ding, P. Eng, Y. Q. Cai, P. Chow, Y. Xiao, J. Shu, R. J. Hemley, C. Kao.

Physical Review Letters, 105, 186404 (2010).

2009

26. Substitutional alloy of Ce and Al.

Q.-S. Zeng, Y. Ding, W. L. Mao, W. Luo, A. Blomqvist, R. Ahuja, W. Yang, J. Shu, S. V. Sinogeikin, Y. Meng.

Proceedings of the National Academy of Sciences, 106, 2515 (2009).

25. Fe K pre-edge of Fe₂O₃ at High Pressure.

Wang, Shibing; Mao, Wendy; Cai, Yong; Hiraoka, Nozomu; Ishii, Hirofumi; Ding, Yang; Xiao, Yuming; Chow, Paul; Mao, Ho-Kwang; Shu, Jinfu; Kao, Chichang.

American Physical Society, 2009 APS March Meeting, March 16-20, 2009, abstract id. V23.012.

24. High-pressure induced phase transitions of Y₂O₃ and Y₂O₃: Eu³⁺.

L. Wang, Y. Pan, Y. Ding, W. Yang, W. L. Mao, S. V. Sinogeikin, Y. Meng, G. Shen, H.-k. Mao.

Applied Physics Letters, 94, 061921-061921-061923 (2009).

23. Superconductivity at 31 K in the "111"-type iron arsenide superconductor Na_1−xFeAs induced by pressure.

S. J. Zhang, X. C. Wang, Q. Q. Liu, Y. X. Lv, X. H. Yu, Z. J. Lin, Y. S. Zhao, L. Wang, Y. Ding, H. K. Mao, C. Q. Jin.

Europhysics Letters, 88, 47008 (2009).

22. Pressure-Induced Magnetic Transition in Manganite (La_0.75Ca_0.25MnO₃).

Y. Ding, D. Haskel, Y.-C. Tseng, E. Kaneshita, M. van Veenendaal, J. F. Mitchell, S. V. Sinogeikin, V. Prakapenka, H.-k. Mao.

Physical Review Letters, 102, 237201 (2009). PDF

2008

21. Pressure‐induced magnetic transition and sound velocities of Fe₃C: Implications for carbon in the Earth's inner core.

L. Gao, B. Chen, J. Wang, E. E. Alp, J. Zhao, M. Lerche, W. Sturhahn, H. P. Scott, F. Huang, Y. Ding.

Geophysical Research Letters, 35, (2008).

20. Novel Pressure-Induced Magnetic Transition in Magnetite Fe₃O₄.

Y. Ding, D. Haskel, S. G. Ovchinnikov, Y.-C. Tseng, Y. S. Orlov, J. C. Lang, H.-k. Mao.

Physical Review Letters, 100, 45508 (2008). PDF

2007

19. Unusual lattice dynamics of vanadium under high pressure.

W. Luo, R. Ahuja, Y. Ding, H.-k. Mao.

Proceedings of the National Academy of Sciences, 104, 16428 (2007).

18. Structural phase transition of vanadium at 69 GPa.

Y. Ding, R. Ahuja, J. Shu, P. Chow, W. Luo, H.-k. Mao.

Physical Review Letters, 98, 85502 (2007). PDF

2006

17. Neutron and x-ray scattering studies for Fe_1-xO.

Y Ding, H Liu, J Xu, RJ Hemley, HD Mao, CT Prewitt.

American Geophysical Union, Fall Meeting 2006, abstract id. MR21B-0021.

16. Pressure-induced long-range magnetic ordering in cobalt oxide.

Y. Ding, Y. Ren, P. Chow, J. Zhang, S. C. Vogel, B. Winkler, J. Xu, Y. Zhao, H.-k. Mao.

Physical Review B, 74, 144101 (2006). PDF

15. Determining thermal diffuse scattering of vanadium with x-ray transmission scattering.

Y. Ding, P. Chow, H.-K. Mao, Y. Ren, C. T. Prewitt.

Applied Physics Letters, 88, 061903 (2006).

2005

14. X-ray diffraction and Raman studies of the CuGeO₃(III)–(IV) transformation under high pressures.

L. C. Ming, S. K. Sharma, A. J. Jayaraman, Y. Kobayashi, E. Suzuki, S. Endo, V. Prakapenka, Y. Ding.

Spectrochimica Acta Part A: Molecular and Biomolecular Spectroscopy , 61, 2418-2422 (2005).

13. Rietveld refinement study of the pressure dependence of the internal structural parameter u in the wurtzite phase of ZnO.

H. Liu, Y. Ding, M. Somayazulu, J. Qian, J. Shu, D. Häusermann, H.-k. Mao.

Physical Review B, 71, 212103 (2005).

12. Variable pressure-temperature neutron diffraction of wüstite (FeO): Absence of long-range magnetic order to 20 GPa.

Y. Ding, J. Xu, C. T. Prewitt, R. J. Hemley, H.-k. Mao, J. A. Cowan, J. Zhang, J. Qian, S. C. Vogel, K. Lokshin.

Applied Physics Letters, 86, 052505 (2005).

11. High-resolution transmission electron microscopy (HRTEM) study of the 4a and 6a superstructure of bornite Cu₅FeS₄.

Y. Ding, D. R. Veblen, C. T. Prewitt.

American Mineralogist, 90, 1256-1264 (2005).

10. Possible Fe/Cu ordering schemes in the 2a superstructure of bornite (Cu₅FeS₄).

Y. Ding, D. R. Veblen, C. T. Prewitt.

American Mineralogist, 90, 1265-1269 (2005).

9. Zone-axis diffraction study of pressure-induced inhomogeneity in single-crystal FeO.

Y. Ding, H. Liu, J. Xu, C. T. Prewitt, R. J. Hemley, H.-k. Mao.

Applied Physics Letters, 87, 041912 (2005).

8. Zone-axis x-ray diffraction of single-crystal Fe_1−xO under pressure.

Y. Ding, H. Liu, M. Somayazulu, Y. Meng, J. Xu, C. T. Prewitt, R. J. Hemley, H.-k. Mao.

Physical Review B, 72, 174109 (2005). PDF

2004

7. Powder neutron diffraction of wüstite (Fe_0.93O) to 12 GPa using large moissanite anvils.

J. Xu, Y. Ding, S. D. Jacobsen, H. K. Mao, R. J. Hemley, J. Zhang, J. Qian, C. Pantea, S. C. Vogel, D. J. Williams.

High Pressure Research, 24, 247-253 (2004).

6. B1-to-B2 phase transition of transition-metal monoxide CdO under strong compression.

H. Liu, H.-k. Mao, M. Somayazulu, Y. Ding, Y. Meng, D. Häusermann.

Physical Review B, 70, 094114 (2004).

5. Impactite from Henbury, Australia.

Y. Ding, D. R. Veblen.

American Mineralogist, 89, 961-968 (2004).

2003

4. High Pressure Elasticity of Iron Alloys From Nuclear Resonant Inelastic X-ray Scattering and X-ray Diffraction.

Mao, W. L.; Heinz, D. L.; Campbell, A. J.; Sturhahn, W.; Ding, Y.; Mao, H.; Hemley, R. J..

American Geophysical Union, Fall Meeting 2003, abstract id. V31D-0960.

2002

3. Transmission electron microscopy (TEM) and first principles methods study on bornite (Cu₅FeS₄).

Y Ding, DR Veblen, CT Prewitt.

American Geophysical Union, Spring Meeting 2002, abstract id. M51A-11.

2. Transmission electron microscopy (TEM) study on bornite and impactite.

Y. Ding, Ph.D. Thesis, Johns Hopkins University, 2002.

2001

1. Exchange coupling in nanostructured CoO/NiFe networks.

L. Sun, Y. Ding, C. L. Chien, P. C. Searson.

Physical Review B, 64, 184430 (2001).

2019

A farewell party for Barbara in a restaurant near HPSTAR

A Photo with Dave Mao, Tetsuya Ishikawa (Director of RIKEN SPring-8 Center), Alfred Baron (Director of Materials Dynamics Group, RIKEN SPring-8 Center) at SPring-8

A seminar lunch with Prof. Yagi Takehiko at HPSTAR

A lunch with Dave Mao, Agnes, and Dr. Yasuo Ohishi at a cafe near Spring-8

Student Hongshan Deng received a best student presentation award at 7th Chinese Crystallography Conference; Session Chair. Tian Jin, China, Sept. 25-28, 2018.

DAC Training workshop
(Prof. Yang Ding, Prof. Jinfu Shu and PhD student Dong Wang)

With session Chair Prof. Youwen Long at the Nature Conference 2019, Cheng Du, China.

HPSTAR people at SMEC meeting 2019

2018

2016

Our first group picture taken on Oct 1st 2016 at HPSTAR Beijing Center

(From left: Yang Ding, Jianbo Zhang, Bijuan Zhang, Raimundas Sereika, Hongshan Deng, Sorb Y. A.)

Dr. Jianbo Zhang (left) and Dr. Raimundas Sereika at sector 20-ID-B beamline, APS, USA

(Aug. 2016)

Dr. Raimundas Sereika at sector 20-ID-B beamline, APS, USA

(Aug. 2016)

Dr. Jianbo Zhang at HPCAT, 16 BM-D diffraction beamline, APS, USA.

(Aug. 2016)

A diamond anvil cell model at HPCAT. In a diamond anvil cell, samples locate in a chamber between two diamond tips that is confined by a metal gasket.

Dr. Raimundas Sereika and beamline scientist Dr. Wenjun Liu at sector 34-ID-E Nao-Laue diffraction/imaging beamline, APS, USA

(Aug. 2016)

Dr. Jianbo Zhang at 34 ID-E anomlous diffraction diffraction beamline, APS, USA.

(Aug. 2016)

Dr. Bijuan Chen and Student Hongshan Deng at BL12XU resonant inelastic x-ray scattering beamline, SPring-8, Japan

(Dec. 2016)

Dr. Sorb Y. A. is working with Raman measurements at HPSTAR.

(Dec. 2016)

Dr. Yang Ding is working with HPSTAR Director Ho-kwang Mao at ultrahigh energy resolution beam line 10-ID at NSLS-II, Brookhaven National Lab. USA

(Nov. 2016)

Dr. Yang Ding is working at beamline 21A, TPS, Taiwan.

(Dec. 2016)

2017

Dr. Yang Ding is working at beamline 10, NSLS-II, Brookhaven National Lab.

(Feb. 2017)

Drs. Jianbo Zhang and Sorb are working with Dr. Chenjun Sun at sector 20 ID-C

APS, Argonnne National Lab. on Feb. 23 2017;

Dr. Bijuan Chen is working with Dr. Mali at sector 20 ID-B

APS, Argonnne National Lab. on March. 15, 2017;

The babcground is the LERIX spectromemeter.

Dr. Bijuan Chen is working with Dr. Bing Li and Student Hongshan Deng at sector 16 ID-D

APS, Argonnne National Lab. on March. 23, 2017;

Dr. Bijuan Chen and student Hongshan Deng are working with Dr. Ahmet Atalas at sector 30 ID-D

APS, Argonnne National Lab. on March. 23, 2017;

Dr. Jianbo Zhang and student Hongshan Deng are working with Dr. Zhenxian Liu using Raman system at NSLS-II, Brookhaven Nationa Lab. on April 21, 2017.

Group picture taken on May 9th 2017 at HPSTAR Beijing Center

(From left: Hongshan Deng,Yang Ding, Jianbo Zhang, Yin Xia, Yang Ding, Bijuan Zhang, Sorb Y. A., Raimundas Sereika,)

Dr. Yang Ding was working at BL43LXU IXS beamline at SPring-8 in July 2017

Dr Bujuan Chen is presenting an inivited talk at 2017 AIRAPT meeting at Beijing, China on Aug. 19, 2019.

Student Hongshan Deng is presenting a talk at 2017 AIRAPT meeting at Beijing, China on Aug. 20, 2019.

Dr Raimundas Sereika is presenting his poster at 2017 AIRAPT meeting at Beijing, China on Aug. 19, 2019.

Dr Sorb Y. is presenting his poster at 2017 AIRAPT meeting at Beijing, China on Aug. 19, 2019.

Above two: Student Yinxia and Dr. Raimundas are measureing RIXS at SPring-8, BL12XU beamline on from Dec 15-22, 2017;

Below: YinXia is at SPring-8 Main Building.

Postdoctoral positions are available immediatley and contineously:

The XSG group at Beijing Center of High Pressure Science & Technology Advanced Research (HPSTAR), China, continuously seeks international applicants for a postdoctoral position in the field of high pressure research on condensed matter physics, materials science, and mineral physics. The position will focus on studying emergent phenomena, such as superconductivity, magnetism, and phase transitions... in electron strongly correlated materials under extreme conditions.

Qualifications: A PhD in physics, materials science, or a related field is required. Applicants who are familiar with diamond anvil cells, or synchrotron, or neutron, or Raman scattering techniques, electric/magnetic transport measurements, or interested in high-pressure physics are welcome to apply at any time.

Stipend: The annual salary will depend on candidates' experience. For a firsttime postdoctoral applicant, the starting salary is 200,000 RMB (~32,200 US dollars). There will be additional research and travel support for conducting experiments overseas when beam time is available. The positions are available immediately.

Application package consisting of a cover letter, curriculum vitae (including a list of publications), statement of research interests, and contact information for three references must be forwarded to Dr. Yang Ding (yang.ding@hpstar.ac.cn).

For graduate students:

We are also seeking motivated graduate students, with Physics, Material Scienceor mineral physics background, at any level (i.e. Master or Ph.D) to join our group. For those who are interested, please feel free to send your CV and a brief summary of research interests to

Dr. Yang Ding

Staff Scientist

北京高压科学研究中心

北京市海淀区西北旺东路10号

10 Xibeiwang East Road, Haidian, Beijing, 100094

86-010-5698-1751 (office)

Email: yang.ding@hpstar.ac.cn