Towards next generation white LEDs: optics-electronics synergistic effect in a single-layer heterophase halide perovskite [PDF]
Light: 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
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Strained-Layer Electronics and Optoelectronics
Picosecond 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
semanticscholar +4 more sources
Electric Double Layer Based Epidermal Electronics for Healthcare and Human-Machine Interface [PDF]
Biosensors, 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
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Accounts of Chemical Research, 2015 CONSPECTUS: Atomic crystals of two-dimensional materials consisting of single sheets extracted from layered materials are gaining increasing attention. The most well-known material from this group is graphene, a single layer of graphite that can be extracted from the bulk material or grown on a suitable substrate.
Lembke, Dominik +2 more
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Recent Advances in Seeded and Seed-Layer-Free Atomic Layer Deposition of High-K Dielectrics on Graphene for Electronics [PDF]
C, 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
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Multilayer stretchable electronics with designs enabling a compact lateral form
npj Flexible ElectronicsStretchable electronics are of huge interest as they can be useful in various irregular non-planar or deformable surfaces including human bodies. High density multi-functional stretchable electronics are beneficial as they can be reliably used in more ...
Dongwuk Jung +5 more
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Thermal properties of graphene and few‐layer graphene: applications in electronics [PDF]
IET Circuits Devices Syst., 2015 The authors review thermal properties of graphene and few-layer graphene (FLG), and discuss applications of these materials in thermal management of advanced electronics.
Zhong Yan +2 more
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Advanced Science, 2020 As the most frequent wound complication, infection has become a major clinical challenge in wound management. To overcome the “Black Box” status of the wound‐healing process, next‐generation wound dressings with the abilities of real‐time monitoring ...
Qian Pang +8 more
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Molecular electronics exploiting sharp structure in the electrode density-of-states. Negative differential resistance and Resonant Tunneling in a poled molecular layer on Al/LiF electrodes [PDF]
, 2004 Density-functional calculations are used to clarify the role of an ultrathin LiF layer on Al electrodes used in molecular electronics. The LiF layer creates a sharp density of states (DOS), as in a scanning-tunneling microscope (STM) tip.
Dharma-wardana, M. W. C. +4 more
core +2 more sources
The Design of the Emission Layer for Electron Multipliers [PDF]
Nanoscale 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
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