Applications of plasmon-enhanced nanocatalysis to organic transformations
Localized surface plasmon resonance (LSPR) is a physical phenomenon exhibited by
nanoparticles of metals including coinage metals, alkali metals, aluminum, and some …
nanoparticles of metals including coinage metals, alkali metals, aluminum, and some …
Energy‐level alignment at organic/metal and organic/organic interfaces
In this Review, we summarize recent work on modeling of organic/metal and organic/organic
interfaces. Some of the models discussed have a semiempirical approach, that is …
interfaces. Some of the models discussed have a semiempirical approach, that is …
X-ray imaging with scintillator-sensitized hybrid organic photodetectors
P Büchele, M Richter, SF Tedde, GJ Matt, GN Ankah… - Nature …, 2015 - nature.com
Medical X-ray imaging requires cost-effective and high-resolution flat-panel detectors for the
energy range between 20 and 120 keV. Solution-processed photodetectors provide the …
energy range between 20 and 120 keV. Solution-processed photodetectors provide the …
Thin-film metal oxides in organic semiconductor devices: their electronic structures, work functions and interfaces
MT Greiner, ZH Lu - NPG Asia Materials, 2013 - nature.com
Thin-film metal oxides are among the key materials used in organic semiconductor devices.
As there are no intrinsic charge carriers in a typical organic semiconductor, all charges in the …
As there are no intrinsic charge carriers in a typical organic semiconductor, all charges in the …
Organic semiconductor density of states controls the energy level alignment at electrode interfaces
Minimizing charge carrier injection barriers and extraction losses at interfaces between
organic semiconductors and metallic electrodes is critical for optimizing the performance of …
organic semiconductors and metallic electrodes is critical for optimizing the performance of …
Chemical modification of semiconductor surfaces for molecular electronics
Inserting molecular monolayers within metal/semiconductor interfaces provides one of the
most powerful expressions of how minute chemical modifications can affect electronic …
most powerful expressions of how minute chemical modifications can affect electronic …
Highly efficient organic devices based on electrically doped transport layers
K Walzer, B Maennig, M Pfeiffer, K Leo - Chemical reviews, 2007 - ACS Publications
Most present-day semiconductor devices use inorganic crystalline materials, with single-
crystalline silicon dominating other materials like GaAs by about a factor of 1000. Despite …
crystalline silicon dominating other materials like GaAs by about a factor of 1000. Despite …
[HTML][HTML] Electronic, structural and chemical effects of charge-transfer at organic/inorganic interfaces
During the last decade, interest on the growth and self-assembly of organic molecular
species on solid surfaces spread over the scientific community, largely motivated by the …
species on solid surfaces spread over the scientific community, largely motivated by the …
Energetics of metal–organic interfaces: New experiments and assessment of the field
J Hwang, A Wan, A Kahn - Materials Science and Engineering: R: Reports, 2009 - Elsevier
Considerable research and development means have been focused in the past decade on
organic semiconductor thin films and devices with applications to full color displays, flexible …
organic semiconductor thin films and devices with applications to full color displays, flexible …
The interface energetics of self-assembled monolayers on metals
Self-assembled monolayers (SAMs) of organic molecules generally modify the surface
properties when covalently linked to substrates. In organic electronics, SAMs are used to …
properties when covalently linked to substrates. In organic electronics, SAMs are used to …