Organic thin-film transistors (OTFTs) are the basic building blocks for flexible and stretchable electronics. As organic semiconductor films usually contain significant structural and energetic disorder, charge carriers hop ...
Optics & Photonics
Jul 14, 2022
0
4
This review is conceived by academician Yunqi Liu and professor Yunlong Guo (Institute of Chemistry, Chinese Academy of Sciences). Dr. Zhiyuan Zhao, Dr. Kai Liu, and Yanwei Liu are the co-first authors. This research attaches ...
Polymers
Jul 6, 2022
0
11
Germanium telluride is a strong candidate for use in functional spintronic devices due to its giant Rashba-effect. Now, scientists at HZB have discovered another intriguing phenomenon in GeTe by studying the electronic response ...
Condensed Matter
Jul 6, 2022
0
65
In the world of electricity, copper is king—for now. That could change with new research from Pacific Northwest National Laboratory (PNNL) that is serving up a recipe to increase the conductivity of aluminum, making it ...
Materials Science
Jun 29, 2022
3
954
Whether or not a solid can emit light, for instance as a light-emitting diode (LED), depends on the energy levels of the electrons in its crystalline lattice. An international team of researchers led by University of Oldenburg ...
Nanophysics
Jun 27, 2022
0
136
Due to high hole mobility, pentacene and its derivatives have been the representative organic semiconductor and have been the subject of much research, both basic and applied. In particular, they are expected to be applied ...
Analytical Chemistry
Jun 17, 2022
0
130
X-rays make it possible to explore inside human bodies or peer inside objects. The technology used to illuminate the detail in microscopically small structures is the same as that used in familiar situations—such as medical ...
Optics & Photonics
Jun 6, 2022
0
67
Researchers at ETH Zurich have succeeded for the first time in trapping excitons—quasiparticles consisting of negatively charged electrons and positively charged holes—in a semiconductor material using controllable electric ...
Optics & Photonics
May 26, 2022
1
673
NUS scientists discovered that a two-dimensional (2D) semiconducting material, known as black phosphorus (BP), exhibits an electronic self-passivation phenomenon by re-arranging its vacancy defects. This may potentially enhance ...
Nanophysics
May 25, 2022
0
142
A new technique for studying defects in semiconductor materials could lead to improved speed, power and performance of electronic devices by revealing the atomic-level limitations of advanced materials.
General Physics
May 24, 2022
0
505
