Investigation of a (100) Surface of Pyrite by STM
Author:
Publisher
Wiley
Subject
Condensed Matter Physics,Electronic, Optical and Magnetic Materials,Condensed Matter Physics,Electronic, Optical and Magnetic Materials
Reference10 articles.
1. Iron sulphide solar cells
2. Photoelectrochemistry of Highly Quantum Efficient Single‐Crystalline n ‐ FeS2 (Pyrite)
3. Site Specific Surface Interaction of Electron Donors and Acceptors on FeS2(100) Cleavage Planes
4. Scanning tunneling microscopy of lead selenide monocrystals and epitaxial layers on barium fluoride
5. Scanning tunneling microscopy and tunneling spectroscopy of n-type iron pyrite (n-FeS2) single crystals
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1. Quantification of electronic band gap and surface states on FeS2(100);Surface Science;2013-12
2. Computational Investigation of FeS2 Surfaces and Prediction of Effects of Sulfur Environment on Stabilities;The Journal of Physical Chemistry C;2010-04-21
3. Experimental and theoretical characterization of the structure of defects at the pyriteFeS2(100)surface;Physical Review B;2004-11-05
4. XPS study of the oxidized pyrite surface;Surface Science;2004-09
5. Theoretical study of the surface energy and electronic structure of pyrite FeS2 (100) using a total-energy pseudopotential method, CASTEP;Journal of Colloid and Interface Science;2004-02
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