Atomic and electronic structure transformations in SnS2 at high pressures: a joint single crystal X-ray diffraction and DFT study
出版年份 2016 全文链接
标题
Atomic and electronic structure transformations in SnS2 at high pressures: a joint single crystal X-ray diffraction and DFT study
作者
关键词
-
出版物
DALTON TRANSACTIONS
Volume 45, Issue 9, Pages 3798-3805
出版商
Royal Society of Chemistry (RSC)
发表日期
2016-01-20
DOI
10.1039/c5dt04532k
参考文献
相关参考文献
注意:仅列出部分参考文献,下载原文获取全部文献信息。- Evaluating Pristine and Modified SnS2 as a Lithium-Ion Battery Anode: A First-Principles Study
- (2015) Zhixiao Liu et al. ACS Applied Materials & Interfaces
- Effect of pressure and temperature on Raman scattering and an anharmonicity study of tin dichalcogenide single crystals
- (2015) Sandip V. Bhatt et al. SOLID STATE COMMUNICATIONS
- SnS2 nanotubes: a promising candidate for the anode material for lithium ion batteries
- (2015) Yucheng Huang et al. RSC Advances
- P–V–T equation of state of molybdenite (MoS2) by a diamond anvil cell and in situ synchrotron angle-dispersive X-ray diffraction
- (2014) Dawei Fan et al. PHYSICA B-CONDENSED MATTER
- Strain-induced electronic phase transition and strong enhancement of thermopower ofTiS2
- (2014) Atanu Samanta et al. PHYSICAL REVIEW B
- Pressure-Induced Metallization of Molybdenum Disulfide
- (2014) Zhen-Hua Chi et al. PHYSICAL REVIEW LETTERS
- Pressure-induced semiconducting to metallic transition in multilayered molybdenum disulphide
- (2014) Avinash P. Nayak et al. Nature Communications
- Anisotropic thermal expansion in a metal–organic framework
- (2014) Solveig Røgild Madsen et al. Acta Crystallographica Section B-Structural Science Crystal Engineering and Materials
- High pressure effect on structure, electronic structure, and thermoelectric properties of MoS2
- (2013) Huaihong Guo et al. JOURNAL OF APPLIED PHYSICS
- Structure change, layer sliding, and metallization in high-pressure MoS2
- (2013) Liliana Hromadová et al. PHYSICAL REVIEW B
- Freestanding Tin Disulfide Single-Layers Realizing Efficient Visible-Light Water Splitting
- (2012) Yongfu Sun et al. ANGEWANDTE CHEMIE-INTERNATIONAL EDITION
- Ab initio calculations of band structure and thermophysical properties for SnS2 and SnSe2
- (2012) Xiancong He et al. PHYSICA B-CONDENSED MATTER
- Effect of van der Waals interaction on the properties of SnS2 layered semiconductor
- (2012) Y. Seminovski et al. THIN SOLID FILMS
- Hydrothermally synthesized nanocrystalline tin disulphide as visible light-active photocatalyst: Spectral response and stability
- (2011) Raquel Lucena et al. APPLIED CATALYSIS A-GENERAL
- Hexagonal tin disulfide nanoplatelets: A new photocatalyst driven by solar light
- (2011) Weimin Du et al. CRYSTENGCOMM
- Single-layer MoS2 transistors
- (2011) B. Radisavljevic et al. Nature Nanotechnology
- Visualisation and characterisation of voids in crystalline materials
- (2010) Michael J. Turner et al. CRYSTENGCOMM
- High stability and superior rate capability of three-dimensional hierarchical SnS2 microspheres as anode material in lithium ion batteries
- (2010) Jiantao Zai et al. JOURNAL OF POWER SOURCES
- Effect of pressure on Raman spectra of SnS2 single crystals
- (2010) A. N. Utyuzh et al. PHYSICS OF THE SOLID STATE
- The high-pressure phase transition of TiS2 from first-principles calculations
- (2010) Fei Yu et al. SOLID STATE SCIENCES
- Novel synthesis and high visible light photocatalytic activity of SnS2 nanoflakes from SnCl2·2H2O and S powders
- (2009) Yong Cai Zhang et al. APPLIED CATALYSIS B-ENVIRONMENTAL
- OLEX2: a complete structure solution, refinement and analysis program
- (2009) Oleg V. Dolomanov et al. JOURNAL OF APPLIED CRYSTALLOGRAPHY
- Two-Dimensional SnS2Nanoplates with Extraordinary High Discharge Capacity for Lithium Ion Batteries
- (2008) Jung-wook Seo et al. ADVANCED MATERIALS
- Hirshfeld surface analysis
- (2008) Mark A. Spackman et al. CRYSTENGCOMM
Discover Peeref hubs
Discuss science. Find collaborators. Network.
Join a conversationPublish scientific posters with Peeref
Peeref publishes scientific posters from all research disciplines. Our Diamond Open Access policy means free access to content and no publication fees for authors.
Learn More