Examples for application of X-ray powder diffraction in exploring new functional materials

JIN Shi-Feng; WANG Gang; CHEN Xiao-Long

doi:10.7693/wl20140802

PHYSICS > 2014 > 43(08): 512-519. > DOI: 10.7693/wl20140802

JIN Shi-Feng, WANG Gang, CHEN Xiao-Long. Examples for application of X-ray powder diffraction in exploring new functional materials[J]. PHYSICS, 2014, 43(08): 512-519. DOI: 10.7693/wl20140802

Citation:

JIN Shi-Feng, WANG Gang, CHEN Xiao-Long. Examples for application of X-ray powder diffraction in exploring new functional materials[J]. PHYSICS, 2014, 43(08): 512-519. DOI: 10.7693/wl20140802

Citation:

JIN Shi-Feng, WANG Gang, CHEN Xiao-Long. Examples for application of X-ray powder diffraction in exploring new functional materials[J]. PHYSICS, 2014, 43(08): 512-519. DOI: 10.7693/wl20140802

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Examples for application of X-ray powder diffraction in exploring new functional materials

Laboratory of Advanced Materials & Electron Microscopy,Institute of hysics,Chinese Academy of Sciences,Beijing 100190,China

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Received Date: July 13, 2014
Published Date: August 11, 2014

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Abstract

The discovery of single crystal X-ray diffraction in 1912 not only marks the birth of modern crystallography, but also has a profound impact on the development of physics and many other related fields. X-ray powder diffraction extends the structure analysis method to common polycrystalline materials, and then becomes one of the most important characterization means being widely used in physics, chemistry, and materials science in particular. Here we demonstrate the applications of X-ray powder diffraction in exploring new functional materials based on some typical works on new borates and iron-based superconductors in our group. With the emerging and development of new methods and technologies, we believe that X-ray powder diffraction will play a more important role in the exploration of new materials and other related fields.
- X-ray powder diffraction, structure solution,
- borates,
- iron-based superconductors

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[1]	Paszkowicz W. Synchrotron Radiation in Natural Science，2006，(5)：115
[2]	陈小龙，郑伟涛，廖立兵等. 多(粉)晶衍射研究进展. 见中国晶体学会编. 晶体学学科发展报告.北京：中国科学技术出版社，2010.101
[3]	梁敬魁，陈小龙，古元新. 物理，1995，24：483
[4]	陈小龙. 多晶X射线衍射测定结构. 师昌绪主编. 材料科学与工程手册. 北京：化学工业出版社，2004. 3，80
[5]	HeM，Chen X L，LanYC et al. J. Solid State Chem.，2001，156：181
[6]	Li X Z，Wang C，Chen X L et al. Inorg. Chem.，2004，43：8555
[7]	He M，Chen X L，Okudera H et al. Chem. Mater.，2005，17：2193
[8]	Wu L，Chen X L，Xu Y P et al. Inorg. Chem.，2006，45：3042
[9]	李晖，李家驹，陈小龙等. Rainbow MEM用户手册，2009
[10]	Wu L，Chen X L，Li H et al. Inorg. Chem.，2005，44：6409
[11]	Zhang X G，Zhou LY，Gong M L. Luminescence，2014，29：104
[12]	Pekgözlü İ. Journal of Luminescence，2013，143：93
[13]	Jin S F，Cai G M，WangWY et al. Angew. Chem. Int. Ed.，2010，49：4967
[14]	Kamihara Y，Watanabe T，Hirano M et al. J. Am. Chem. Soc.，2008，130：3296
[15]	Hsu F C，Luo J Y，Yeh K W et al. Proc. Natl. Acad. Sci. USA，2008，105：14262
[16]	Guo J G，Jin S F，Wang G et al. Phys. Rev. B，2010，82：180520
[17]	Mou D X，Liu SY，JiaXWet al. Phys. Rev. Lett.，2011，106：107001
[18]	QianT，WangXP，JinWCet al. Phys. Rev. Lett.，2011，106：187001
[19]	Bao W，Huang Q，Chen G F et al. Chin. Phys. Lett.，2011，28：086104
[20]	Sun L L，Chen X J，Guo J et al. Nature，2012，483：67
[21]	Yuan R H，Dong T，Song Y J et al. Sci. Rep.，2012，2：221
[22]	LiW，Ding H，Deng P et al. Nat. Phys.，2012，8：126
[23]	Shoemaker D P，Chung D Y，Claus H et al. Phys. Rev. B，2012，86：184511
[24]	Ying T P，Chen X L，Wang G et al. Sci. Rep.，2012，2：426
[25]	Ying T P，Chen X L，Wang G et al. J. Am. Chem. Soc.，2013，135：2951

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