Schematic of colour and shape change of a constituent nanostructured element of the “invisible ink”

STRUCTURAL MULTI-COLOUR INVISIBLE INKS WITH SUBMICRON 4D PRINTING OF SHAPE MEMORY POLYMERS,

2021

W. Zhang, H. Wang, H. Wang, J.Y. En Chan, H. Liu, B. Zhang, Y.-Fang Zhang, K. Agarwal, X. Yang, H. Y. Low, Q. Ge, J. KW Yang,

Nature Communications

https://www.nature.com/articles/s41467-020-20300-2

Helicoidally oriented electrospun fiber reinforced composites with different angular orientations an

IMPACT RESISTANT AND TOUGH HELICOIDALLY ALIGNED RIBBON REINFORCED COMPOSITE WITH TUNABLE MECHANICAL PROPERTIES VIA INTEGRATED ADDITIVE MANUFACTURING METHODOLOGIES, ACS APPLIED POLYMER MATERIALS, 2020.

2020

K. Agarwal, R. Sahay, A. Baji, A. S. Budiman,

ACS Applied Polymer Materials

https://doi.org/10.1021/acsapm.0c00518

HELICOIDALLY ARRANGED POLYACRYLONITRILE FIBER-REINFORCED STRONG AND IMPACT-RESISTANT THIN POLYVINYL ALCOHOL FILM ENABLED BY ELECTROSPINNING-BASED ADDITIVE MANUFACTURING, POLYMERS, 2020.

2020

R. Sahay*, K. Agarwal*, A. Subramani, N Raghavan, A.S Budiman, A. Baji

Polymers

https://doi.org/10.3390/polym12102376

IMPACT-RESISTANT AND TOUGH 3D HELICOIDALLY ARCHITECTED POLYMER COMPOSITES ENABLING NEXT-GENERATION LIGHTWEIGHT SILICON PHOTOVOLTAICS MODULE DESIGN AND TECHNOLOGY. POLYMERS.

2021

A.S. Budiman, R. Sahay, K. Agarwal, G. Illya, R.G. Widjaja, A. Baji, N. Raghavan

Polymers

https://doi.org/10.3390/polym13193315

TENSILE PROPERTIES OF COMPOSITE REINFORCED WITH THREE-DIMENSIONAL PRINTED FIBERS

2020

K.Agarwal, R.Sahay, A.Baji

Polymers

https://doi.org/10.3390/polym12051089

EMERGING DEVELOPMENTS IN THE USE OF ELECTROSPUN FIBERS AND MEMBRANES FOR PROTECTIVE CLOTHING APPLICATIONS

2020

A. Baji, K. Agarwal, S. V. Oopath

DEVELOPMENT OF STRONG AND TOUGH ELECTROSPUN FIBER REINFORCED COMPOSITES

2020

K. Agarwal, R. Sahay, A. S. Budiman, and A.Baji

Electrospun Polymers and Composites - Ultrafine Materials, High Performance Fibres and Wearables,Woodhead Publishing

Book Chapter - 10.1016/B978-0-12-819611-3.00009-1

BIOMIMETIC TOUGH HELICOIDALLY STRUCTURED MATERIAL THROUGH NOVEL ELECTROSPINNING BASED ADDITIVE MANUFACTURING

2019

K. Agarwal, R. Sahay, A. Baji, A. S. Budiman

MRS Advances

https://doi.org/10.1557/adv.2019.313

ADDITIVE MANUFACTURING ENABLED BY ELECTROSPINNING FOR TOUGHER BIO-INSPIRED MATERIALS

2018

K. Agarwal, Z. Yinning, H.P.A. Ali, I.Radchenko, A.Baji, A. S. Budiman, and A.Baji

https://doi.org/10.1155/2018/8460751

ELECTROSPUN BEAD-ON-STRING HIERARCHICAL FIBERS FOR FOG HARVESTING APPLICATION

2017

N. Thakur, A.S. Ranganath, K. Agarwal, and A.Baji

https://doi.org/10.1155/2018/8460751

Numerical Simulation of Impact on helicoidal fibers

MODELING IMPACT MECHANICS OF 3D HELICOIDALLY ARCHITECTED POLYMER COMPOSITES ENABLED BY ADDITIVE MANUFACTURING FOR LIGHTWEIGHT SILICON PHOTOVOLTAICS TECHNOLOGY

January 2022

Numerical simulation and modeling to enhance our understanding of the stress distribution and evolution during impact loading on such helicoidally arranged fiber-based composite materials, and thus the damage evolution and mechanisms. This could further aid the implementation of the lightweight PV technology for the unique market needs, especially in countries with extreme winter seasons.

Publications: Publications

USE OF MELT-ELECTROSPINNING WRITING TO PRODUCE TOUGH FIBER REINFORCED COMPOSITES

2020

IMPACT-RESISTANT HELICOIDALLY ARRANGED ELECTROSPUN POLYACRYLONITRILE (PAN) FIBERS REINFORCED POLYVINYL ALCOHOL (PVA) THIN-FILM

2020

MATERIAL SCIENCE IN PHOTO/ACOUSTIC TRANSDUCERS

September 2022

Publications: Publications

STRUCTURAL MULTI-COLOUR INVISIBLE INKS WITH SUBMICRON 4D PRINTING OF SHAPE MEMORY POLYMERS,

IMPACT RESISTANT AND TOUGH HELICOIDALLY ALIGNED RIBBON REINFORCED COMPOSITE WITH TUNABLE MECHANICAL PROPERTIES VIA INTEGRATED ADDITIVE MANUFACTURING METHODOLOGIES, ACS APPLIED POLYMER MATERIALS, 2020.

HELICOIDALLY ARRANGED POLYACRYLONITRILE FIBER-REINFORCED STRONG AND IMPACT-RESISTANT THIN POLYVINYL ALCOHOL FILM ENABLED BY ELECTROSPINNING-BASED ADDITIVE MANUFACTURING, POLYMERS, 2020.

IMPACT-RESISTANT AND TOUGH 3D HELICOIDALLY ARCHITECTED POLYMER COMPOSITES ENABLING NEXT-GENERATION LIGHTWEIGHT SILICON PHOTOVOLTAICS MODULE DESIGN AND TECHNOLOGY. POLYMERS.

TENSILE PROPERTIES OF COMPOSITE REINFORCED WITH THREE-DIMENSIONAL PRINTED FIBERS

EMERGING DEVELOPMENTS IN THE USE OF ELECTROSPUN FIBERS AND MEMBRANES FOR PROTECTIVE CLOTHING APPLICATIONS

DEVELOPMENT OF STRONG AND TOUGH ELECTROSPUN FIBER REINFORCED COMPOSITES

BIOMIMETIC TOUGH HELICOIDALLY STRUCTURED MATERIAL THROUGH NOVEL ELECTROSPINNING BASED ADDITIVE MANUFACTURING

ADDITIVE MANUFACTURING ENABLED BY ELECTROSPINNING FOR TOUGHER BIO-INSPIRED MATERIALS

ELECTROSPUN BEAD-ON-STRING HIERARCHICAL FIBERS FOR FOG HARVESTING APPLICATION

MODELING IMPACT MECHANICS OF 3D HELICOIDALLY ARCHITECTED POLYMER COMPOSITES ENABLED BY ADDITIVE MANUFACTURING FOR LIGHTWEIGHT SILICON PHOTOVOLTAICS TECHNOLOGY

USE OF MELT-ELECTROSPINNING WRITING TO PRODUCE TOUGH FIBER REINFORCED COMPOSITES

IMPACT-RESISTANT HELICOIDALLY ARRANGED ELECTROSPUN POLYACRYLONITRILE (PAN) FIBERS REINFORCED POLYVINYL ALCOHOL (PVA) THIN-FILM

3D HELICOIDALLY ARCHITECTURED THIN-FILM COMPOSITE FOR TOUGHER BIO-INSPIRED MATERIAL

LOW-VELOCITY IMPACT TESTING OF DAMAGE-RESISTANT BIO-MIMETIC COMPOSITE STRUCTURES MANUFACTURED WITH ELECTROSPINNING

3D BIOMIMETIC THIN FILM COMPOSITE DESIGN FOR TOUGHER MATERIAL

3D ARCHITECTURAL DESIGN ENABLED BY ELECTROSPINNING TO FABRICATE STRONG AND TOUGH FIBERS

BIOMIMETIC, STRONG YET TOUGH COMPOSITES THROUGH ELECTROSPINNING AS AN ADDITIVE MANUFACTURING METHODOLOGY

MATERIAL SCIENCE IN PHOTO/ACOUSTIC TRANSDUCERS