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Badri Narayanan Narasimhan

About Badri Narayanan Narasimhan

Badri Narayanan Narasimhan, With an exceptional h-index of 5 and a recent h-index of 5 (since 2020), a distinguished researcher at University of Auckland, specializes in the field of Hydrogels, mechanotransduction, growth factor, materials.

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

Forms of graphene IV—functionalized graphene

Hydrogen bonding dissipating hydrogels: The influence of network structure design on structure-property relationships

DNA‐Engineered Hydrogels with Light‐Adaptive Plasmonic Responses

Conducting polymer hydrogels with electrically-tuneable mechanical properties as dynamic cell culture substrates

Hydrogels with Tunable Physical Cues and Their Emerging Roles in Studies of Cellular Mechanotransduction

Soft conducting polymer polypyrrole actuation based on poly (N-isopropylacrylamide) hydrogels

Investigation of tunable viscoelastic hydrogels for mechanotransduction studies

Polymer Micelle Directed Magnetic Cargo Assemblies Towards Spin‐wave Manipulation

Badri Narayanan Narasimhan Information

University

Position

___

Citations(all)

87

Citations(since 2020)

87

Cited By

1

hIndex(all)

5

hIndex(since 2020)

5

i10Index(all)

3

i10Index(since 2020)

3

Email

University Profile Page

Google Scholar

Badri Narayanan Narasimhan Skills & Research Interests

Hydrogels

mechanotransduction

growth factor

materials

Top articles of Badri Narayanan Narasimhan

Forms of graphene IV—functionalized graphene

2023/6/1

Sesha Manuguri
Sesha Manuguri

H-Index: 3

Badri Narayanan Narasimhan
Badri Narayanan Narasimhan

H-Index: 1

Hydrogen bonding dissipating hydrogels: The influence of network structure design on structure-property relationships

Journal of Colloid and Interface Science

2023/1/15

Badri Narayanan Narasimhan
Badri Narayanan Narasimhan

H-Index: 1

Andrew Taberner
Andrew Taberner

H-Index: 21

DNA‐Engineered Hydrogels with Light‐Adaptive Plasmonic Responses

Advanced Functional Materials

2022/9

Jacky Loo
Jacky Loo

H-Index: 17

Badri Narayanan Narasimhan
Badri Narayanan Narasimhan

H-Index: 1

Anton Kuzyk
Anton Kuzyk

H-Index: 21

Sesha Manuguri
Sesha Manuguri

H-Index: 3

Conducting polymer hydrogels with electrically-tuneable mechanical properties as dynamic cell culture substrates

Biomaterials Advances

2022/3/1

Joseph Vella
Joseph Vella

H-Index: 7

Brad J Raos
Brad J Raos

H-Index: 4

Badri Narayanan Narasimhan
Badri Narayanan Narasimhan

H-Index: 1

Darren Svirskis
Darren Svirskis

H-Index: 17

Jadranka Travas-Sejdic
Jadranka Travas-Sejdic

H-Index: 34

Hydrogels with Tunable Physical Cues and Their Emerging Roles in Studies of Cellular Mechanotransduction

2021/10

Badri Narayanan Narasimhan
Badri Narayanan Narasimhan

H-Index: 1

Soft conducting polymer polypyrrole actuation based on poly (N-isopropylacrylamide) hydrogels

Sensors and Actuators B: Chemical

2021/9/15

Badri Narayanan Narasimhan
Badri Narayanan Narasimhan

H-Index: 1

Jadranka Travas-Sejdic
Jadranka Travas-Sejdic

H-Index: 34

Investigation of tunable viscoelastic hydrogels for mechanotransduction studies

2021

Badri Narayanan Narasimhan
Badri Narayanan Narasimhan

H-Index: 1

Polymer Micelle Directed Magnetic Cargo Assemblies Towards Spin‐wave Manipulation

Advanced Materials Interfaces

2021/8

Sesha Manuguri
Sesha Manuguri

H-Index: 3

Badri Narayanan Narasimhan
Badri Narayanan Narasimhan

H-Index: 1

Simon Granville
Simon Granville

H-Index: 14

David E Williams
David E Williams

H-Index: 34

A comparative study of tough hydrogen bonding dissipating hydrogels made with different network structures.

Nanoscale Advances

2021

Badri Narayanan Narasimhan
Badri Narayanan Narasimhan

H-Index: 1

Sesha Manuguri
Sesha Manuguri

H-Index: 3

Mechanical characterization for mechanobiology: current trends and future prospects

2020

Badri Narayanan Narasimhan
Badri Narayanan Narasimhan

H-Index: 1

See List of Professors in Badri Narayanan Narasimhan University(University of Auckland)