Jennifer E. Curtis

Georgia Institute of Technology

H-index: 24

North America-United States

About Jennifer E. Curtis

Jennifer E. Curtis, With an exceptional h-index of 24 and a recent h-index of 16 (since 2020), a distinguished researcher at Georgia Institute of Technology, specializes in the field of biological physics, cell mechanics, glycocalyx, biofilms, polymer brushes.

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

Dynamics of Early Cell Spreading with Hyaluronan Glycocalyx

Mechanics of biofilm adhesion to ultra-thick polymer brushes

Glycocalyx-induced cell membrane protrusions at the cell-substrate interface

Hyaluronan glycocalyx mechanically modulates cell shape and focal adhesion dynamics

Bacteriophage-driven spatial structuring of Pseudomonas aeruginosa biofilms

How Surface Fluidity Impacts the Mechanics of Biofilm Adhesion

Cell surface hydrophobicity determines Pseudomonas aeruginosa aggregate assembly

Self-regenerating hyaluronan polymer brushes

Jennifer E. Curtis Information

University	Georgia Institute of Technology
Position	School of Physics
Citations(all)	4799
Citations(since 2020)	1478
Cited By	3913
hIndex(all)	24
hIndex(since 2020)	16
i10Index(all)	40
i10Index(since 2020)	22
Email	Access Email
University Profile Page	Georgia Institute of Technology
Google Scholar	View Google Scholar Profile

Jennifer E. Curtis Skills & Research Interests

biological physics

cell mechanics

glycocalyx

biofilms

polymer brushes

Top articles of Jennifer E. Curtis

Title	Journal	Author(s)	Publication Date
Dynamics of Early Cell Spreading with Hyaluronan Glycocalyx	Bulletin of the American Physical Society	Jennifer Curtis Yu Jing Jianqiao Li Emma Poma Mariela Lopez Gonzalez	2024/3/5
Mechanics of biofilm adhesion to ultra-thick polymer brushes	APS March Meeting Abstracts	Katherine Powell Jessica Faubel Jennifer Curtis	2023
Glycocalyx-induced cell membrane protrusions at the cell-substrate interface	APS March Meeting Abstracts	Ethan Coburn Shlomi Cohen Yu Jing Jennifer Curtis	2023
Hyaluronan glycocalyx mechanically modulates cell shape and focal adhesion dynamics	APS March Meeting Abstracts	Yu Jing Jessica Faubel Katherine Powell Shlomi Cohen Jennifer Curtis	2023
Bacteriophage-driven spatial structuring of Pseudomonas aeruginosa biofilms	APS March Meeting Abstracts	Robert Edmiston Hemaa Selvakumar Joshua Weitz Stephen Diggle Jennifer Curtis	2022
How Surface Fluidity Impacts the Mechanics of Biofilm Adhesion	APS March Meeting Abstracts	Katherine Powell Jessica Faubel Robert Edmiston Ellen Park Jennifer Curtis	2022
Cell surface hydrophobicity determines Pseudomonas aeruginosa aggregate assembly	bioRxiv	Sheyda Azimi Jacob Thomas Sara E Cleland Jennifer E Curtis Joanna B Goldberg ...	2021
Self-regenerating hyaluronan polymer brushes			2021/7/13
Sculpting Enzyme-Generated Giant Polymer Brushes	ACS nano	Jessica L Faubel Wenbin Wei Jennifer E Curtis	2021/2/22
Phage-bacteria dynamics in spatially structured bacterial communities	APS March Meeting Abstracts	Hemaa Selvakumar Marian Dominguez-Mirazo Jacob Thomas Stephen Diggle Joshua Weitz ...	2021
Not only proteins: The role of compressed sugars in cell migration	Bulletin of the American Physical Society	Shlomi Cohen Patrycja Kotowska Patrick Chang Yu Jing Rebecca Keate ...	2021/3/19
Mechanobiology of hyaluronan-rich glycocalyx: How do giant polymers modulate cell adhesion.	APS March Meeting Abstracts	Yu Jing Shlomi Cohen Jessica Faubel Wenbin Wei Jennifer Curtis	2021
O-specific antigen-dependent surface hydrophobicity mediates aggregate assembly type in Pseudomonas aeruginosa	MBio	Sheyda Azimi Jacob Thomas Sara E Cleland Jennifer E Curtis Joanna B Goldberg ...	2021/8/31
Kinetics of Cell Adhesion Through Biomimetic Glycocalyx	Bulletin of the American Physical Society	Yu Jing Shlomi Cohen Jessica Faubel Jennifer Curtis	2020/3/4