original ) (raw )Surface photovoltage measurements and Fermi level pinning: comments on “development and confirmation of the unified model for Schottky barrier formation and MOS interface states on III-V compounds”
Leonard Brillson
Thin Solid Films, 1982
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Fundamentals of Semiconductor Electrochemistry and Photoelectrochemistry
K. Rajeshwar
Online, 2007
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Surface Science, 2001
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Leonard Brillson
Thin Solid Films, 1988
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János Mizsei
Applied Surface Science, 2004
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Thomas Mayer
physica status solidi (b), 2008
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Energy Environ. Sci., 2015
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The Impact of Local Work Function Variations on Fermi Level Pinning of Organic Semiconductors
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The Journal of Physical Chemistry C, 2013
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Nobuo Ueno
Organic Electronics, 2011
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Passivation at semiconductor/electrolyte interface: Role of adsorbate solvation and reactivity in surface atomic and electronic structure modification of III–V semiconductor
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Applied Surface Science, 2008
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Karsten Horn
Applied Physics A Solids and Surfaces, 1990
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Electrochimica Acta, 2006
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Solvent-induced surface state passivation reduces recombination in semisquarylium dye-sensitized solar cells
Andreas Bartelt
Applied Physics Letters, 2014
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How the Charge-Neutrality Level of Interface States Controls Energy Level Alignment in Cathode Contacts of Organic Bulk-Heterojunction Solar Cells
Antonio Guerrero
ACS Nano, 2012
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Critical interfaces in new solar cell materials: organic heterojunctions and heterojunctions involving semiconductor nanoparticles
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Physical Chemistry of Interfaces and Nanomaterials VII, 2008
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The influence of oxygen adsorption on the electronic surface states and the Fermi level pinning on the clean, polar GaAs(111) surface
Jacek Szuber
Applied Surface Science, 1992
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Energy Procedia, 2011
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Superlattices and Microstructures, 2018
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Advanced Energy Materials, 2017
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Journal of Electronic Materials, 2001
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Confirmation of the temperature-dependent photovoltaic effect on Fermi-level measurements by photoemission spectroscopy
Leonard Brillson
Physical Review B, 1990
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Solid State Communications, 1988
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