Ultralow Power Optical Synapses Based on MoS2 Layers by Indium-Induced Surface Charge Doping for Biomimetic Eyes (Adv. Mater. 52/2021): Inside Front Cover

Yunxia Hu; Mingjin Dai; Wei Feng; Xin Zhang; Feng Gao; Shichao Zhang; Biying Tan; Jia Zhang; Yong Shuai; YongQing Fu; PingAn Hu

doi:10.1002/adma.202170409

Ultralow Power Optical Synapses Based on MoS2 Layers by Indium-Induced Surface Charge Doping for Biomimetic Eyes (Adv. Mater. 52/2021): Inside Front Cover

Yunxia Hu, Mingjin Dai, Wei Feng, Xin Zhang, Feng Gao, Shichao Zhang, Biying Tan, Jia Zhang, Yong Shuai, YongQing Fu, PingAn Hu

Research output: Contribution to journal › Editorial › peer-review

Abstract

Biomimetic eyes have shown great potential in the fields of visual prostheses and robotics. In article number 2104960, PingAn Hu and co-workers propose an electron-injection-enhanced indium layer to increase MoS2 synaptic device conductivity and reduce the power consumption to 68.9 aJ per spike. Furthermore, they construct a 5 × 5 In/MoS2 synaptic device array into a hemispherical electronic retina, showing the great potential in bionic retinas, robots, and visual prostheses.

Original language	English
Article number	2170409
Number of pages	1
Journal	Advanced Materials
Volume	33
Issue number	52
Early online date	27 Dec 2021
DOIs	https://doi.org/10.1002/adma.202170409
Publication status	Published - 29 Dec 2021

Keywords

ultralow power consumption
synaptic devices
MoS 2
image learning
biomimetic eyes

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title = "Ultralow Power Optical Synapses Based on MoS2 Layers by Indium-Induced Surface Charge Doping for Biomimetic Eyes (Adv. Mater. 52/2021): Inside Front Cover",

abstract = "Biomimetic eyes have shown great potential in the fields of visual prostheses and robotics. In article number 2104960, PingAn Hu and co-workers propose an electron-injection-enhanced indium layer to increase MoS2 synaptic device conductivity and reduce the power consumption to 68.9 aJ per spike. Furthermore, they construct a 5 × 5 In/MoS2 synaptic device array into a hemispherical electronic retina, showing the great potential in bionic retinas, robots, and visual prostheses. ",

keywords = "ultralow power consumption, synaptic devices, MoS 2, image learning, biomimetic eyes",

author = "Yunxia Hu and Mingjin Dai and Wei Feng and Xin Zhang and Feng Gao and Shichao Zhang and Biying Tan and Jia Zhang and Yong Shuai and YongQing Fu and PingAn Hu",

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doi = "10.1002/adma.202170409",

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T1 - Ultralow Power Optical Synapses Based on MoS2 Layers by Indium-Induced Surface Charge Doping for Biomimetic Eyes (Adv. Mater. 52/2021)

T2 - Inside Front Cover

AU - Hu, Yunxia

AU - Dai, Mingjin

AU - Feng, Wei

AU - Zhang, Xin

AU - Gao, Feng

AU - Zhang, Shichao

AU - Tan, Biying

AU - Zhang, Jia

AU - Shuai, Yong

AU - Fu, YongQing

AU - Hu, PingAn

N1 - Cover of issue, relating to article of the same title: https://doi.org/10.1002/adma.202104960

PY - 2021/12/29

Y1 - 2021/12/29

N2 - Biomimetic eyes have shown great potential in the fields of visual prostheses and robotics. In article number 2104960, PingAn Hu and co-workers propose an electron-injection-enhanced indium layer to increase MoS2 synaptic device conductivity and reduce the power consumption to 68.9 aJ per spike. Furthermore, they construct a 5 × 5 In/MoS2 synaptic device array into a hemispherical electronic retina, showing the great potential in bionic retinas, robots, and visual prostheses.

AB - Biomimetic eyes have shown great potential in the fields of visual prostheses and robotics. In article number 2104960, PingAn Hu and co-workers propose an electron-injection-enhanced indium layer to increase MoS2 synaptic device conductivity and reduce the power consumption to 68.9 aJ per spike. Furthermore, they construct a 5 × 5 In/MoS2 synaptic device array into a hemispherical electronic retina, showing the great potential in bionic retinas, robots, and visual prostheses.

KW - ultralow power consumption

KW - synaptic devices

KW - MoS 2

KW - image learning

KW - biomimetic eyes

U2 - 10.1002/adma.202170409

DO - 10.1002/adma.202170409

M3 - Editorial

SN - 0935-9648

VL - 33

JO - Advanced Materials

JF - Advanced Materials

IS - 52

M1 - 2170409

ER -

Ultralow Power Optical Synapses Based on MoS2 Layers by Indium-Induced Surface Charge Doping for Biomimetic Eyes (Adv. Mater. 52/2021): Inside Front Cover

Abstract

Keywords

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