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Wei Cao

Wei Cao

University of California, Santa Barbara

H-index: 22

North America-United States

About Wei Cao

Wei Cao, With an exceptional h-index of 22 and a recent h-index of 20 (since 2020), a distinguished researcher at University of California, Santa Barbara, specializes in the field of Nano-electronic Device and Circuit.

His recent articles reflect a diverse array of research interests and contributions to the field:

The future transistors

Two-dimensional materials enabled next-generation low-energy compute and connectivity

One-Dimensional Edge Contacts to Two-Dimensional Transition-Metal Dichalcogenides: Uncovering the Role of Schottky-Barrier Anisotropy in Charge Transport across Mo S 2/Metal …

0.5 T0. 5R—An ultracompact RRAM cell uniquely enabled by van der Waals heterostructures

A mode-balanced reconfigurable logic gate built in a van der Waals strata

0.5 T0. 5R-introducing an ultra-compact memory cell enabled by shared graphene edge-contact and h-BN insulator

A compact current–voltage model for 2-D-semiconductor-based lateral homo-/hetero-junction tunnel-FETs

Impact of transport anisotropy on the performance of van der Waals materials-based electron devices

Wei Cao Information

University

Position

Postdoc Researcher ECE@

Citations(all)

3117

Citations(since 2020)

2078

Cited By

1828

hIndex(all)

22

hIndex(since 2020)

20

i10Index(all)

32

i10Index(since 2020)

28

Email

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University Profile Page

University of California, Santa Barbara

Google Scholar

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Wei Cao Skills & Research Interests

Nano-electronic Device and Circuit

Top articles of Wei Cao

Title

Journal

Author(s)

Publication Date

The future transistors

Wei Cao

Huiming Bu

Maud Vinet

Min Cao

Shinichi Takagi

...

2023/8/17

Two-dimensional materials enabled next-generation low-energy compute and connectivity

Arnab Pal

Kunjesh Agashiwala

Junkai Jiang

Dujiao Zhang

Tanmay Chavan

...

2021/12

One-Dimensional Edge Contacts to Two-Dimensional Transition-Metal Dichalcogenides: Uncovering the Role of Schottky-Barrier Anisotropy in Charge Transport across Mo S 2/Metal …

Physical Review Applied

Kamyar Parto

Arnab Pal

Tanmay Chavan

Kunjesh Agashiwala

Chao-Hui Yeh

...

2021/6/28

0.5 T0. 5R—An ultracompact RRAM cell uniquely enabled by van der Waals heterostructures

IEEE Transactions on Electron Devices

Dujiao Zhang

Chao-Hui Yeh

Wei Cao

Kaustav Banerjee

2021/3/24

A mode-balanced reconfigurable logic gate built in a van der Waals strata

npj 2D Materials and Applications

Wei Cao

Jae Hwan Chu

Kamyar Parto

Kaustav Banerjee

2021/2/16

0.5 T0. 5R-introducing an ultra-compact memory cell enabled by shared graphene edge-contact and h-BN insulator

Chao-Hui Yeh

Dujiao Zhang

Wei Cao

Kaustav Banerjee

2020/12/12

A compact current–voltage model for 2-D-semiconductor-based lateral homo-/hetero-junction tunnel-FETs

IEEE Transactions on Electron Devices

Arnab Pal

Wei Cao

Kaustav Banerjee

2020/8/24

Impact of transport anisotropy on the performance of van der Waals materials-based electron devices

IEEE Transactions on Electron Devices

Wei Cao

Mengqi Huang

Chao-Hui Yeh

Kamyar Parto

Kaustav Banerjee

2020/2/26

Is negative capacitance FET a steep-slope logic switch?

Nature communications

Wei Cao

Kaustav Banerjee

2020/1/10

See List of Professors in Wei Cao University(University of California, Santa Barbara)