H-Index & Metrics Best Publications

H-Index & Metrics

Discipline name H-index Citations Publications World Ranking National Ranking
Materials Science D-index 58 Citations 15,418 154 World Ranking 3616 National Ranking 15

Overview

What is he best known for?

The fields of study he is best known for:

  • Gene
  • Enzyme
  • Biochemistry

His main research concerns Fibroin, SILK, Tissue engineering, Nanotechnology and Biocompatibility. The various areas that Subhas C. Kundu examines in his Fibroin study include Biomaterial, Biophysics, Polymer chemistry, Bombyx mori and Antheraea mylitta. His research in SILK is mostly concerned with Sericin.

His research on Tissue engineering concerns the broader Biomedical engineering. His work on Nanofiber, Nanoscopic scale and Biomaterial scaffold is typically connected to Delivery vehicle as part of general Nanotechnology study, connecting several disciplines of science. He has researched Nanofiber in several fields, including Fiber, Surface-area-to-volume ratio and Melt electrospinning, Electrospinning.

His most cited work include:

  • Electrospinning: a fascinating fiber fabrication technique. (2704 citations)
  • Silk fibroin biomaterials for tissue regenerations. (619 citations)
  • Cell proliferation and migration in silk fibroin 3D scaffolds. (361 citations)

What are the main themes of his work throughout his whole career to date?

His scientific interests lie mostly in Fibroin, SILK, Nanotechnology, Tissue engineering and Sericin. His Fibroin research incorporates themes from Biomaterial, Biomedical engineering, Biocompatibility, Bombyx mori and Antheraea mylitta. His work deals with themes such as Polymer, Gelatin, Drug delivery and Controlled release, which intersect with Biocompatibility.

His work investigates the relationship between SILK and topics such as Biophysics that intersect with problems in In vitro. His research investigates the connection between Nanotechnology and topics such as Conductive polymer that intersect with issues in PEDOT:PSS. Subhas C. Kundu combines subjects such as Nanofiber, Anatomy and Cell biology with his study of Tissue engineering.

He most often published in these fields:

  • Fibroin (53.94%)
  • SILK (36.22%)
  • Nanotechnology (25.98%)

What were the highlights of his more recent work (between 2017-2021)?

  • Fibroin (53.94%)
  • Cancer (7.48%)
  • Self-healing hydrogels (11.02%)

In recent papers he was focusing on the following fields of study:

His primary areas of investigation include Fibroin, Cancer, Self-healing hydrogels, Cancer research and In vivo. His Fibroin research is classified as research in SILK. His SILK research is multidisciplinary, incorporating perspectives in Toughness, Chemical engineering and Adhesive.

His study in Cancer is interdisciplinary in nature, drawing from both Risk analysis, Disease and Drug. His Self-healing hydrogels research incorporates elements of Osteosarcoma, Gellan gum, Tumor stroma, Spheroid formation and Sericin. The In vivo study combines topics in areas such as Decellularization, In vitro, Immune system, Immunogenic cell death and Melanoma.

Between 2017 and 2021, his most popular works were:

  • Protein Nanoparticles: Promising Platforms for Drug Delivery Applications. (46 citations)
  • Could 3D models of cancer enhance drug screening (37 citations)
  • 3D Protein-Based Bilayer Artificial Skin for the Guided Scarless Healing of Third-Degree Burn Wounds in Vivo (33 citations)

In his most recent research, the most cited papers focused on:

  • Gene
  • Enzyme
  • Biochemistry

Subhas C. Kundu mainly investigates Fibroin, Biocompatibility, Biomedical engineering, Nanotechnology and In vivo. The study incorporates disciplines such as Tissue engineering, Electrospinning, Biomaterial and Nanofiber in addition to Fibroin. In his study, which falls under the umbrella issue of Biocompatibility, Electrospun nanofibers is strongly linked to Drug delivery.

His studies in Biomedical engineering integrate themes in fields like Wound healing, Skin wound and Bilayer. His research integrates issues of Biocomposite and Conductive polymer in his study of Nanotechnology. His work in SILK tackles topics such as Scaffold which are related to areas like Sericin and Self-healing hydrogels.

This overview was generated by a machine learning system which analysed the scientist’s body of work. If you have any feedback, you can contact us here.

Best Publications

Electrospinning: a fascinating fiber fabrication technique.

Nandana Bhardwaj;Subhas C. Kundu.
Biotechnology Advances (2010)

4692 Citations

Silk fibroin biomaterials for tissue regenerations.

Banani Kundu;Rangam Rajkhowa;Subhas C. Kundu;Xungai Wang.
Advanced Drug Delivery Reviews (2013)

857 Citations

Cell proliferation and migration in silk fibroin 3D scaffolds.

Biman B. Mandal;Subhas C. Kundu.
Biomaterials (2009)

508 Citations

Silk proteins for biomedical applications: Bioengineering perspectives

Banani Kundu;Nicholas E. Kurland;Subia Bano;Chinmoy Patra.
Progress in Polymer Science (2014)

319 Citations

Natural protective glue protein, sericin bioengineered by silkworms: Potential for biomedical and biotechnological applications ☆

Subhas C. Kundu;Biraja C. Dash;Rupesh Dash;David L. Kaplan.
Progress in Polymer Science (2008)

304 Citations

Silk fibroin/polyacrylamide semi-interpenetrating network hydrogels for controlled drug release

Biman B. Mandal;Sonia Kapoor;Subhas C. Kundu.
Biomaterials (2009)

294 Citations

Silk fibroin nanoparticles for cellular uptake and control release.

Joydip Kundu;Yong-Il Chung;Young Ha Kim;Giyoong Tae.
International Journal of Pharmaceutics (2010)

257 Citations

Silk protein-based hydrogels: Promising advanced materials for biomedical applications

Sonia Kapoor;Subhas C. Kundu.
Acta Biomaterialia (2016)

244 Citations

Scavenging of Nitrogen Dioxide, Thiyl, and Sulfonyl Free Radicals by the Nutritional Antioxidant -Carotene

Steven A. Everett;Madeleine F. Dennis;Kantilal B. Patel;Susan Maddix.
Journal of Biological Chemistry (1996)

225 Citations

TOPICAL REVIEW: Biopolymeric nanoparticles

Sushmitha Sundar;Joydip Kundu;Subhas C. Kundu.
STAdM (2010)

223 Citations

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