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Advanced filters: Author: Akmaral Seitkhan Clear advanced filters

Rapid and up-scalable manufacturing of gigahertz nanogap diodes

The incoming internet of things technology requires mass production of radiofrequency electronics. Here, Anthopoulos et al. report a self-forming nanogap method for manufacturing Schottky diodes, operating at 47 GHz, over arbitrary size substrates.

Kalaivanan Loganathan
Hendrik Faber
Thomas D. Anthopoulos
ResearchOpen Access07 Jun 2022
Nature Communications

Volume: 13, P: 1-8
100 GHz zinc oxide Schottky diodes processed from solution on a wafer scale

Nanoscale electrodes fabricated using adhesion lithography can be combined with solution-processed metal oxide semiconductors to create Schottky diodes with performance suitable for 5G communications and beyond.

Dimitra G. Georgiadou
James Semple
Thomas D. Anthopoulos
Research19 Oct 2020
Nature Electronics

Volume: 3, P: 718-725
Long-range exciton diffusion in molecular non-fullerene acceptors

The short-range diffusion length of organic semiconductors severely limits exciton harvesting and charge generation in organic bulk heterojunction solar cells. Here, the authors report exciton diffusion length in the range of 20 to 47 nm for a wide range of non-fullerene acceptors molecules.

Yuliar Firdaus
Vincent M. Le Corre
Thomas D. Anthopoulos
ResearchOpen Access15 Oct 2020
Nature Communications

Volume: 11, P: 1-10
Hybrid organic–metal oxide multilayer channel transistors with high operational stability

Thin-film transistors with a high electron mobility and operational stability can be fabricated from solution-processed multilayer channels composed of ultrathin layers of indium oxide, zinc oxide nanoparticles, ozone-treated polystyrene and compact zinc oxide.

Yen-Hung Lin
Wen Li
Thomas D. Anthopoulos
Research16 Dec 2019
Nature Electronics

Volume: 2, P: 587-595
Large-area plastic nanogap electronics enabled by adhesion lithography

James Semple
Dimitra G. Georgiadou
Thomas D. Anthopoulos
ResearchOpen Access25 Jun 2018
npj Flexible Electronics

Volume: 2, P: 1-10