Results 1 to 10 of about 1,596 (165)

Towards next generation white LEDs: optics-electronics synergistic effect in a single-layer heterophase halide perovskite [PDF]

open access: goldLight: Science & Applications, 2021
A novel concept of the heterophase optics-electronics synergistic effect has been demonstrated in a single-layer α/δ-heterophase perovskite CsPbI3 in order to realize white LEDs featuring only one broadband emissive layer.
Andrey L. Rogach
doaj   +2 more sources

Electric Double Layer Based Epidermal Electronics for Healthcare and Human-Machine Interface [PDF]

open access: goldBiosensors, 2023
Epidermal electronics, an emerging interdisciplinary field, is advancing the development of flexible devices that can seamlessly integrate with the skin.
Yuan Gao   +4 more
doaj   +2 more sources

Recent Advances in Seeded and Seed-Layer-Free Atomic Layer Deposition of High-K Dielectrics on Graphene for Electronics [PDF]

open access: goldC, 2019
Graphene (Gr) with its distinctive features is the most studied two-dimensional (2D) material for the new generation of high frequency and optoelectronic devices. In this context, the Atomic Layer Deposition (ALD) of ultra-thin high-k insulators on Gr is
Emanuela Schilirò   +3 more
doaj   +2 more sources

Strained-Layer Electronics and Optoelectronics

open access: greenPicosecond Electronics and Optoelectronics, 1991
Strained-layer epitaxy involves more than the dislocation-free growth of dissimilar materials: effective strained-layer epitaxy exploits lattice-mismatch-induced strain to fine-tune material properties. This paper describes strained-layer epitaxy and describes its application to electronic and optoelectronic device to improve performance.
David R. Myers
openalex   +3 more sources

The Design of the Emission Layer for Electron Multipliers [PDF]

open access: yesNanoscale Research Letters, 2021
Abstract The electron multipliers gain is closely related to the secondary electron emission coefficient (SEE) of the emission layer materials. The SEE is closely related to the thickness of the emission layer. If the emission layer is thin, the low SEE causes the low gain of electron multipliers.
Ming Qi   +8 more
openaire   +4 more sources

Confinement of Electrons in Layered Metals [PDF]

open access: yesPhysical Review Letters, 2002
4 pages, 1 eps ...
Francisco Guinea   +2 more
openaire   +4 more sources

Electron-electron interactions in decoupled graphene layers [PDF]

open access: yesPhysical Review B, 2010
Multi-layer graphene on the carbon face of silicon carbide is an intriguing electronic system which typically consists of a stack of ten or more layers. Rotational stacking faults in this system dramatically reduce inter-layer coherence. In this article we report on the influence of inter-layer interactions, which remain strong even when coherence is ...
Profumo REV   +4 more
openaire   +6 more sources

Creating Stretchable Electronics from Dual Layer Flex-PCB for Soft Robotic Cardiac Mapping Catheters

open access: yesMicromachines, 2023
The authors present in this study the development of a novel method for creating stretchable electronics from dual-layer flex printed circuit boards (flex-PCBs) as a platform for soft robotic sensor arrays (SRSAs) for cardiac voltage mapping applications.
Abdellatif Ait Lahcen   +6 more
doaj   +1 more source

Electron Reconnection in the Magnetopause Current Layer [PDF]

open access: yesJournal of Geophysical Research: Space Physics, 2018
AbstractThe electron dynamics within thin current sheets plays a key role both for the process of magnetic reconnection and other energy transfer mechanisms but, from an observational point of view, is not well understood. In this paper we report observations of a reconnecting current sheet with intermediate guide field BG=0.5Bin, where Bin is the ...
Michael Hesse   +17 more
openaire   +4 more sources

Drag in Paired Electron-Hole Layers [PDF]

open access: yesPhysical Review Letters, 1996
12 pages, 1 Figure, .eps file ...
Vignale, Giovanni, 1957-   +1 more
openaire   +4 more sources

Home - About - Disclaimer - Privacy