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Xingchen Shao

Xingchen Shao

Johns Hopkins University

H-index: 9

North America-United States

About Xingchen Shao

Xingchen Shao, With an exceptional h-index of 9 and a recent h-index of 9 (since 2020), a distinguished researcher at Johns Hopkins University, specializes in the field of soft matter, surface instabilities.

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

Out-of-contact peeling caused by elastohydrodynamic deformation during viscous adhesion

Role of edge effects and fluid depth in azimuthal Faraday waves

Surface wave pattern formation in a cylindrical container

Polymer effects on viscoelastic fluid flows in a planar constriction microchannel

On the role of meniscus geometry in capillary wave generation

Flow of non-Newtonian fluids in a single-cavity microchannel

Viscoelastic effects in circular edge waves

A method for determining surface tension, viscosity, and elasticity of gels via ultrasonic levitation of gel drops

Xingchen Shao Information

University

Position

___

Citations(all)

198

Citations(since 2020)

194

Cited By

41

hIndex(all)

9

hIndex(since 2020)

9

i10Index(all)

9

i10Index(since 2020)

9

Email

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University Profile Page

Johns Hopkins University

Google Scholar

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Xingchen Shao Skills & Research Interests

soft matter

surface instabilities

Top articles of Xingchen Shao

Title

Journal

Author(s)

Publication Date

Out-of-contact peeling caused by elastohydrodynamic deformation during viscous adhesion

The Journal of Chemical Physics

Xingchen Shao

Yumo Wang

Joelle Frechette

2023/10/7

Role of edge effects and fluid depth in azimuthal Faraday waves

Physical Review Fluids

P Wilson

X Shao

JR Saylor

JB Bostwick

2022/1/24

Surface wave pattern formation in a cylindrical container

Journal of Fluid Mechanics

X Shao

P Wilson

JR Saylor

JB Bostwick

2021/5

Polymer effects on viscoelastic fluid flows in a planar constriction microchannel

Journal of Non-Newtonian Fluid Mechanics

Sen Wu

Mahmud Kamal Raihan

Le Song

Xingchen Shao

Joshua B Bostwick

...

2021/4/1

On the role of meniscus geometry in capillary wave generation

Experiments in Fluids

X Shao

CT Gabbard

JB Bostwick

JR Saylor

2021/3

Flow of non-Newtonian fluids in a single-cavity microchannel

Micromachines

Mahmud Kamal Raihan

Purva P Jagdale

Sen Wu

Xingchen Shao

Joshua B Bostwick

...

2021/7/18

Viscoelastic effects in circular edge waves

Journal of Fluid Mechanics

X Shao

P Wilson

JB Bostwick

JR Saylor

2021/7

A method for determining surface tension, viscosity, and elasticity of gels via ultrasonic levitation of gel drops

The Journal of the Acoustical Society of America

X Shao

SA Fredericks

JR Saylor

JB Bostwick

2020/4/1

Fluid rheological effects on the flow of polymer solutions in a contraction–expansion microchannel

Micromachines

Purva P Jagdale

Di Li

Xingchen Shao

Joshua B Bostwick

Xiangchun Xuan

2020/3/8

Pattern formation and elastocapillary instabilities in soft gels

Xingchen Shao

2020

Experimental observation of Faraday waves in soft gels

Physical Review E

X Shao

G Bevilacqua

P Ciarletta

JR Saylor

JB Bostwick

2020/12/23

Faraday waves in soft elastic solids

Proceedings of the Royal Society A

Giulia Bevilacqua

Xingchen Shao

John R Saylor

Joshua B Bostwick

Pasquale Ciarletta

2020/9/30

See List of Professors in Xingchen Shao University(Johns Hopkins University)