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Radiospectroscopy of organic semiconductors

Uspekhi Fizicheskih Nauk, 1967
I. Introduction 237 II. Electron Paramagnetic Resonance in Organic Semiconductors 238 1. EPR Observation of Triplet States of Organic Crystals 238 2. Triplet Excitons in Charge-transfer Complexes and Other Organic Semiconductors 240 3. Activation Energy of Singlet-triplet Transitions and Width of the Forbidden Band 245 III.
Vadim S Grechishkin, N E Aĭnbinder
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Charge carrier traps in organic semiconductors: a review on the underlying physics and impact on electronic devices

Journal of Materials Chemistry C, 2020
The phenomenon of charge carrier traps in organic semiconductors and their impact on electronic devices are reviewed.
Hamna F. Haneef   +2 more
semanticscholar   +1 more source

Bioinspired Multifunctional Organic Transistors Based on Natural Chlorophyll/Organic Semiconductors

Advances in Materials, 2020
Inspired by the photosynthesis process of natural plants, multifunctional transistors based on natural biomaterial chlorophyll and organic semiconductors (OSCs) are reported.
Ben Yang   +12 more
semanticscholar   +1 more source

Chemical doping of organic semiconductors for thermoelectric applications.

Chemical Society Reviews, 2020
Doping is essential to manipulate the electrical performance of both thermoelectric (TE) materials and organic semiconductors (OSCs). Although organic thermoelectric (OTE) materials have experienced a rapid development over the past decade, the chemical ...
Wenrui Zhao   +4 more
semanticscholar   +1 more source

Metal-Organic Frameworks: Molecules or Semiconductors in Photocatalysis?

Angewandte Chemie, 2021
In the realm of solids, Metal-Organic Frameworks (MOFs) offer unique possibilities for a rationale-based engineering of tailored physical properties.
Nikita Kolobov   +2 more
semanticscholar   +1 more source

Coarse-Graining Organic Semiconductors: The Path to Multiscale Design.

Journal of Physical Chemistry B, 2020
Four decades of molecular theory and computation have helped form the modern understanding of the physical chemistry of organic semiconductors. Whereas these efforts have historically centered around characterizations of electronic structure at the ...
Nicholas E. Jackson
semanticscholar   +1 more source

Temperature Induced Aggregation of Organic Semiconductors.

Chemistry, 2020
One important feature of organic semiconductors is their solution processability, which allows researchers to tune their aggregation states in solution and solid states and to control the processing conditions to reach desirable electronic and ...
Baocai Du, Jicheng Yi, H. Yan, Tao Wang
semanticscholar   +1 more source

Unraveling Sunlight by Transparent Organic Semiconductors toward Photovoltaic and Photosynthesis.

ACS Nano, 2019
Because the visible and the infrared (IR) regions take up ∼47% and ∼51% of the energy in the solar spectrum (AM 1.5G standard), respectively, utilizing the visible light for plant growth and the IR light for power generation is potentially extremely ...
Yuqiang Liu   +11 more
semanticscholar   +1 more source

Nonfullerene n‐Type Organic Semiconductors for Perovskite Solar Cells

Advanced Energy Materials, 2019
Compared to inorganic semiconductors and/or fullerene derivatives, nonfullerene n‐type organic semiconductors present some advantages, such as low‐temperature processing, flexibility, and molecule structure diversity, and have been widely used in ...
Mingyu Zhang, X. Zhan
semanticscholar   +1 more source

Organic Semiconductors

Physics Today, 1961
In modern science and technology it is not unusual for a research activity to involve more than one scientific discipline. Among the newer research endeavors, perhaps none demonstrates such a dual character more clearly than the field of organic semiconductors, which deeply involves both semiconductor physics and organic chemistry.
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