Figure 1. New direct arylation polycondensation method unlocks to manufacture numerous appealing n-type semiconducting polymers Researchers at Tokyo Institute of Technology (Tokyo Tech) customize a previous synthesis method to... Read more »
Dr. Frank Ortmann, cfaed Independent Research study Group Leader Physicists from the Dresden Integrated Center for Applied Physics and Photonic Products (IAPP) and the Center for Advancing Electronic devices... Read more »
Hand sketch of an organic lateral spin pumping gadget Credit: Deepak Venkateshvaran and Nanda Venugopal Organic semiconductors have actually not been reasonable prospects for spintronics up until now since... Read more »
Scientist making thin-film transistors Left: Tsuyoshi Michinobu, right: Yang Wang. Scientists at Tokyo Tech report a unipolar n-type transistor with a world-leading electron movement efficiency of as much as... Read more »
( from left: MS cadidate Jeong-ChanLee, Professor Steve Park and PhD prospect Jin-OhKim). A KAIST research study group led by Professor Steve Park from the Department of Materials Science... Read more »
Figure 1: A photo revealing the blood movie sensing unit connected to a fingertip. The sensing unit is based upon ultrathin, versatile organic movie. © 2018 RIKEN Center for... Read more »
Figure 1: Photograph of 3-micrometer-thick organic solar cell that was adhered to fabric by an instantaneous hot-melt procedure. Reproduced from Ref 1. with consent from PNAS © 2018 A... Read more »
▲ Figure1. Comparison in between a biological mechanosensory nerve and a synthetic mechanosensory nerve. Researchers at Seoul National University and Stanford University established synthetic mechanosensory nerves utilizing flexible organic... Read more »