Thomas Riedl mostly deals with Optoelectronics, OLED, Organic solar cell, Layer and Analytical chemistry. The various areas that Thomas Riedl examines in his Optoelectronics study include Indium tin oxide, Thin-film transistor and Sputtering. His work carried out in the field of OLED brings together such families of science as Chemical vapor deposition, Field-effect transistor, Diode, Semiconductor and Organic electronics.
His work in Organic electronics addresses issues such as Electronics, which are connected to fields such as Transistor and Nanotechnology. His Organic solar cell research is multidisciplinary, incorporating perspectives in PEDOT:PSS, Inorganic chemistry, Vanadium and X-ray photoelectron spectroscopy. The study incorporates disciplines such as Molybdenum trioxide, Dopant, Work function and Electron affinity in addition to Analytical chemistry.
His primary areas of study are Optoelectronics, Thin film, OLED, Atomic layer deposition and Nanotechnology. The concepts of his Optoelectronics study are interwoven with issues in Layer, Thin-film transistor and Laser. His Thin film study also includes fields such as
In his study, which falls under the umbrella issue of OLED, Sputtering is strongly linked to Organic electronics. His studies deal with areas such as Inorganic chemistry, Chemical engineering, Electrode and Tin oxide as well as Atomic layer deposition. As part of one scientific family, he deals mainly with the area of Nanotechnology, narrowing it down to issues related to the Organic solar cell, and often Polymer solar cell, Extraction, Transparent conducting film and Metal.
His main research concerns Perovskite, Thin film, Optoelectronics, Chemical engineering and Halide. Thomas Riedl combines subjects such as Layer, Nanotechnology, Atomic layer deposition, Semiconductor and X-ray photoelectron spectroscopy with his study of Perovskite. Thomas Riedl combines subjects such as Thermal conductivity, Single crystal, Condensed matter physics and Analytical chemistry with his study of Thin film.
The Optoelectronics study combines topics in areas such as Tandem and Laser. His Chemical engineering study incorporates themes from Aqueous solution and Silver nanowires. His Halide research incorporates elements of Photovoltaics, Photovoltaic system, Thermal and Bromide.
Perovskite, Halide, Optoelectronics, Atomic layer deposition and Thin film are his primary areas of study. He has included themes like Thermal, Bromide, Photonic crystal and Analytical chemistry in his Halide study. His biological study spans a wide range of topics, including Inorganic chemistry and Photovoltaic system.
Thomas Riedl has researched Atomic layer deposition in several fields, including Photovoltaics and Tin oxide. His studies deal with areas such as Fluorescence, Polymer, Monomer, Photochemistry and Electrochemistry as well as Thin film. His study focuses on the intersection of Layer and fields such as Electrode with connections in the field of Indium, Transmittance, Cladding, X-ray photoelectron spectroscopy and Nanotechnology.
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Transition Metal Oxides for Organic Electronics: Energetics, Device Physics and Applications
Jens Meyer;Sami Hamwi;Michael Kröger;Wolfgang Kowalsky.
Advanced Materials (2012)
Role of the deep-lying electronic states of MoO3 in the enhancement of hole-injection in organic thin films
M. Kröger;S. Hamwi;J. Meyer;T. Riedl.
Applied Physics Letters (2009)
Solid-State NMR Studies of the Structure of Graphite Oxide
Heyong He;Thomas Riedl;and Anton Lerf;Jacek Klinowski.
The Journal of Physical Chemistry (1996)
P-type doping of organic wide band gap materials by transition metal oxides: A case-study on Molybdenum trioxide
Michael Kröger;Sami Hamwi;Jens Meyer;Thomas Riedl.
Organic Electronics (2009)
Towards See-Through Displays: Fully Transparent Thin-Film Transistors Driving Transparent Organic Light-Emitting Diodes**
Patrick Görrn;Michelle Sander;Jens Meyer;Michael Kroger.
Advanced Materials (2006)
Highly efficient simplified organic light emitting diodes
J. Meyer;S. Hamwi;T. Bülow;H.-H. Johannes.
Applied Physics Letters (2007)
Al2O3/ZrO2 Nanolaminates as Ultrahigh Gas-Diffusion Barriers—A Strategy for Reliable Encapsulation of Organic Electronics
Jens Meyer;Patrick Görrn;Franz Bertram;Sami Hamwi.
Advanced Materials (2009)
13C and 1H MAS NMR studies of graphite oxide and its chemically modified derivatives
Anton Lerf;Heyong He;Thomas Riedl;Michael Forster.
Solid State Ionics (1997)
Large Area Electronics Using Printing Methods
R. Parashkov;E. Becker;T. Riedl;H.-H. Johannes.
Proceedings of the IEEE (2005)
Solution Processed Vanadium Pentoxide as Charge Extraction Layer for Organic Solar Cells
Kirill Zilberberg;Sara Trost;Hans Schmidt;Thomas Riedl.
Advanced Energy Materials (2011)
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