Zobrazeno 1 - 6
of 6
pro vyhledávání: '"Brian Pelatt"'
Publikováno v:
Journal of Solid State Chemistry. 274:337-351
The solid state energy (SSE) of an element in a specified oxidation state corresponds to the average energy of a frontier orbital, i.e., the energy of the lowest-unoccupied state (electron affinity) for a cation or the highest-occupied state (ionizat
Autor:
John F. Wager, Clifford B. Pereira, Robert S. Kokenyesi, Ram Ravichandran, Douglas A. Keszler, Brian Pelatt
Publikováno v:
Journal of Solid State Chemistry. 231:138-144
The atomic solid state energy (SSE) scale originates from a plot of the electron affinity (EA) and ionization potential (IP) versus band gap (EG). SSE is estimated for a given atom by assessing an average EA (for a cation) or an average IP (for an an
Autor:
Heather A. S. Platt, Brian Pelatt, Liping Yu, Alex Zunger, Robert Kykyneshi, Douglas A. Keszler, Emmeline Altschul, Stephan Lany, Vorranutch Jieratum, John F. Wager, Ram Ravichandran
Publikováno v:
Advanced Energy Materials. 1:748-753
An integrated computational and experimental study of FeS₂ pyrite reveals that phase coexistence is an important factor limiting performance as a thin-film solar absorber. This phase coexistence is suppressed with the ternary materials Fe₂SiS₄
Publikováno v:
Solid-State Electronics. 54:1143-1149
Despite high interest for novel device applications, alignment and electrical integration of nanowires to lithographically defined features remains a challenge. In this work, ZnO nanowire devices were fabricated using a novel carbonized photoresist m
Publikováno v:
Nanotechnology. 21(19)
A method for achieving large area integration of nanowires into electrically accessible device structures remains a major challenge. We have achieved directed growth and integration of ZnO nanobridge devices using photolithographically patterned carb
Publikováno v:
2009 International Semiconductor Device Research Symposium.
Devices based on nanowires [1, 2] and nanobridges [3, 4] offer great promise for photonic and sensing applications [5]. However, the development of scalable processes for connecting nanowires (NWs) to metallic electrodes remains a challenge. Recently