中文
Earlier issues
Announcement
More
Progress in Chemistry 2020, Vol. 32 Issue (8): 1049-1059 DOI: 10.7536/PC200552 Previous Articles   Next Articles

• Review •

From Solid State Chemistry to Condensed Matter Chemistry

Xiping Jing1,*()   

  1. 1. College of Chemistry and Molecular Engineering, Peking University, Beijing 100871, China
  • Received: Revised: Online: Published:
  • Contact: Xiping Jing
  • About author:
    * e-mail:
Richhtml ( 27 ) PDF ( 1301 ) Cited
Export

EndNote

Ris

BibTeX

"The condensed matter chemistry" is a new research area in chemistry, the basic idea of which is to study the compositions, structures, properties, preparations and their relationships of matters in multilevels beyond the limitations of molecules and perfect crystals. Based on the brief reviews of the history from the solid state physics to the condensed physics and the history of the solid state chemistry, as well as on the analysis of feature of the solid state of chemistry, it is pointed out that the development of the solid state chemistry must lead to the establishment of "the condensed matter chemistry", and it is referred that many other areas in chemistry would also take "the condensed matter chemistry" as their development direction. The development path for "the condensed matter chemistry" is suggested: completing the knowledge system of the solid state chemistry, expanding the knowledge scope of the solid state chemistry and creating the landmark achievements of "the condensed matter chemistry". It is finally stressed that the condensed matter chemists should reinforce the cooperation with the condensed matter physicists and co-build "the condensed matter science" mansion.

Contents

===1 Introduction

===2 Development of solid state physics and the new contributions of condensed matter physics

===3 Formation and development of the solid state chemistry

===4 The development of the solid state chemistry gives birth to condensed matter chemistry

===5 How to develop condensed matter chemistry

===5.1 Perfecting the knowledge system of the solid state chemistry and establishing a solid foundation for its expansion to “condensed matter chemistry”

===5.2 Expanding the knowledge scope of the solid state chemistry and promoting its evolution to “condensed matter chemistry”

===5.3 Carrying out researches on some selected important subjects with the remarkable characters of “condensed matter chemistry” and creating significant achievements as the landmarks for the formation of “condensed matter chemistry”

===6 Reinforcing the cooperation with the condensed matter physicists and promote the formation of “condensed matter sciences”

Key words: solid state physics, solid state chemistry, condensed matter physics, condensed matter chemistry, condensed matter science
Table 1 Meanings of the compositions, structures and properties
Items Meaning Ⅰ Meaning Ⅱ
Compositions Element contents Phases, defects and so on
StructuresGeneral physical and
chemical properties
(density, melting
point, stability, etc.)		 Molecular and
crystal structuresApplication related
properties(optical,
electrical, magnetic,
mechanical properties, etc.)		 Microstructures
(nm ~ mm)Properties
Fig.1 Schematic phase diagram containing Eutectoid point(E') and Peritectoid point(P')
Fig.2 Phase diagram of the La1-xCaxMnO3 system CS: canted-spin; PM: paramagnetism; FM: ferromagnetism; AFM: antiferromagnetism; I: insulator; M: metal
Fig.3 Phase diagram of the cuprate high temperature superconductor AF: antiferromagnetism; SC: superconductor
Fig.4 Unit cell parameters and c/a ratio vs. x for the (1-x)BaTiO3-xLaTiO3 system(x< 0.08)
Fig.5 Unit cell parameters vs. x for the YBa2Cu3O6+x superconductor
[1]
Xu R R. Natl. Sci. Rev., 2018,5(1):1. https://academic.oup.com/nsr/article/5/1/1/4826553
[2]
Xu R R, Wang K, Chen G, Yan W F. Natl. Sci. Rev., 2019,6(2):191.
[3]
冯端(Feng D), 金国鈞(Jin G J). 物理学进展(Progress in Physics), 1990,10(4):375.
[4]
冯端(Feng D), 金国鈞(Jin G J). 物理学进展(Progress in Physics), 1991,11(2):127.
[5]
冯端(Feng D), 金国鈞(Jin G J). 物理学进展(Progress in Physics), 1991,11(4):373.
[6]
朱邦芬(Zhu B F). 现代物理知识(Modern Physics), 2010,22(3):60.
[7]
M 玻恩(Born M), 黄昆(Huang K)著, 葛惟锟(Ge W K), 贾惟义(Jia W Y)译. 晶格动力学理论(Dynamical Theory of Crystal Lattices). 北京: 北京大学出版社(Beijing: Peking University Press), 1989.
[8]
田光善(Tian G S), 金属铁磁性的起源(The Origin of Metallic Ferromagnetism), 10000个科学难题 · 物理卷(10000 Selected Problems in Sciences · Physics). 北京: 科学出版社(Beijing: Science Press). 2009. 73.
[9]
陆果(Lu G), 阎守胜(Yan S S). 物理(Physics), 1979,8(4):325.
[10]
冯端(Feng D), 金国鈞(Jin G J). 物理学进展(Progress in Physics), 2000,20(1):1.
[11]
《化学发展简史》编写组(Writing group of >Brief History of Chemistry Development>. 化学发展简史(Brief History of Chemistry Development). 北京: 科学出版社(Beijing: Science Press), 1980. 60.
[12]
日本化学会(Japanese Chemical Society) 编, 董万堂(Dong W T), 董绍俊(Dong S J)译. 无机固体反应(Reactions of Inorganic Solids). 北京: 科学出版社(Beijing: Science Press), 1985. 5.
[13]
Zhu H M, Lin C C, Luo W Q, Shu S T, Liu Z G, Liu Y S, Kong J T, Ma E, Cao Y G, Liu R S, Chen X Y. Nat. Commun., 2014,5:4312.
[14]
Mai H X, Zhang Y W, Sun L D, Yan C H. J. Phys. Chem. C, 2007,111:13721.
[15]
黄云辉(Huang Y H). 大学化学(University Chemistry), 2020,35(1):1.
[16]
Johnson J S, Kraus K A, Young T F. Am. Chem. Soc., 1954,76:1434. https://pubs.acs.org/doi/abs/10.1021/ja01634a089
[17]
Nagamatsu J, Nakagawa N, Muranaka T, Zenitani Y, Akimitsu J. Nature, 2001,410:63.
[18]
Longo M, Raccah P M. Solid State Chem., 1973,6:526. https://linkinghub.elsevier.com/retrieve/pii/S0022459673800106
[19]
Bednorz J G, Müller K A. Z. Phys. B, 1986,64:189.
[20]
Elemans J B A A, van Laar B, Van Der Veen K R, Loopstra B O. Solid State. Chem., 1971,3:238.
[21]
Chahara K, Ohno T, Kasai M, Kozono Y. Appl. Phys. Lett., 1993,63:1990.
[22]
Michel C, Moreau J M, Achenbach G B, Gerson R, James W J. Solid State Commun., 1969,7:701.
[23]
Wang J, Neaton J B, Zheng H, Nagarajan V, Ogale S B, Liu B, Viehland D, Vaithyanathan V, Schlom D G, Waghmare U V, Spaldin N A, Rabe K M, Wuttig M, Ramesh R. Science, 2003,299:1719.
[24]
闵乃本(Min N B). 人工晶体学报(J. Synthetic Cryst.), 2001,30(1):10.
[25]
徐光宪(Xu G X). 中国科学基金(Bulletin of Natural Science Foundation of China), 2002,(2):70.
[26]
顾菡珍(Gu H Z), 叶于浦(Ye Y P). 相平衡与相图基础(Basis of Phase Equilibriums and Phase Diagrams), 北京: 北京大学出版社(Beijing: Peking University Press), 1991. 33.
[27]
周永洽(Zhou Y Q), 李家值(Li J Z). 非整比化合物-无机化学丛书第十四卷(Nonstoichiometric Compounds-Inorganic Chemistry Series, Vol. 11), 北京: 科学出版社(Beijing: Science Press), 1997. 372
[28]
荆西平(Jing X P). 大学化学(University Chemistry), 2010,25(5):73.
[29]
Rao C N R, Cheetham A K, Mahesh R. Chem. Mater. 1996,8:2421.
[30]
林建华(Lin J H), 荆西平(Jing X P), 王颖霞(Wang Y X), 李彦(Li Y). 无机材料化学(Inorganic Materials Chemistry). 北京:北京大学出版社(Beijing: Peking University Press), 2018. 273.
[31]
潘劲松(Pan J S). 清华大学博士论文(Doctoral Dissertation of Tsinghua University), 2006.
[32]
Li D, Subramanian M A. Solid State Sciences, 2000,2:507.
[33]
McKinnon W R, Post M L, Selwyn L S, Pleizier G, Tarascon J M, Barboux P, Greene L H, Hull G W. Phys. Rev. B, 1988,38(10):6543.
[34]
徐常清(Xu C Q). 苏州大学博士论文(Doctoral Dissertation of Suzhou University), 2017.
[35]
崔福斋(Cui F Z). 生物矿化-第2版(Biomineralization-2nd Ed.), 北京:清华大学出版社(Beijing: Tsinghua University Press), 2007.
[36]
R 霍夫曼(Hoffmann R)著, 郭洪猷(Guo H Q), 李静(Li Jing)译. 固体与表面(Solids and Surfaces). 北京: 化学工业出版社(Beijing: Chemical Industry Press), 1996.
[1] Peng Xu, Biao Yu. Challenges in Chemical Synthesis of Glycans and the Possible Problems Relevant to Condensed Matter Chemistry [J]. Progress in Chemistry, 2022, 34(7): 1548-1553.
[2] Yawei Liu, Xiaochun Zhang, Kun Dong, Suojiang Zhang. Research of Condensed Matter Chemistry on Ionic Liquids [J]. Progress in Chemistry, 2022, 34(7): 1509-1523.
[3] Libo Mao, Huailing Gao, Yufeng Meng, Yulu Yang, Xiangsen Meng, Shuhong Yu. Biomineralization: A Condensed Matter Chemistry [J]. Progress in Chemistry, 2020, 32(8): 1086-1099.
[4] Xiaoyang Liu. Condensed Matter Chemistry under High Pressure [J]. Progress in Chemistry, 2020, 32(8): 1184-1202.