Anindya Ghosh Data-verified

Affiliation confirmed via AI analysis of OpenAlex, ORCID, and web sources.

High Impact

Researcher

UA Little Rock

Last publication 2025 Last refreshed 2026-05-16

faculty

26 h-index 78 pubs 2,043 cited

Research Areas

Links

ORCID Lab Website

OverviewAI-generated summary

Anindya Ghosh's research focuses on the development of novel materials and technologies for applications in drug delivery, tissue engineering, and industrial processes. His work includes the synthesis of functionalized nanocellulose for neural stem cell differentiation and the creation of guar-based injectable hydrogels for bone cell growth and drug delivery. Ghosh has investigated synthetic matrices for intestinal organoid culture, aiming to improve their performance. He also explores the use of nanocellulose derived from wood feedstock, examining how variability in the source impacts the material's properties.

In the realm of chemical synthesis, Ghosh has published on nickel-catalyzed dehydrogenative conversions of aldehydes and amines to amides, as well as direct amination of sp³ carbon using low-cost nickel pincer catalysts. His research extends to cancer treatment, with work on encapsulating inositol hexakisphosphate with chitosan for cellular delivery and inducing programmed cell death in human breast cancer cells. He also has an interest in the intersection of artificial intelligence and cancer drug development.

Ghosh's scholarship metrics include an h-index of 26, with over 2,020 citations across 79 publications. He has received federal funding from the NSF for an I-Corps project focused on novel coatings for industrial applications. Key collaborators include Malathi Srivatsan (Arkansas State University), and Peter Szwedo, Karie Sanford, and Charlette M. Parnell from the University of Arkansas at Little Rock.

Metrics

h-index: 26
Publications: 78
Citations: 2,043

Selected Publications

Natural Amino Acid-Derived Iron(III) Catalysts for Green Oxidation Chemistry Applications (2025)

DOI OpenAlex
Pincer Nickel(II) Catalyzed Oxidative Carbonylation of Amines: A Phosgene-Free Synthesis for Isocyanates and Ureas (2025)

DOI OpenAlex
Encapsulation of Inositol Hexakisphosphate with Chitosan via Gelation to Facilitate Cellular Delivery and Programmed Cell Death in Human Breast Cancer Cells (2024)

4 citations DOI OpenAlex
Exploring Enhanced Oxygen Reduction Reactions: A Study on Nanocellulose, Dopamine, and Cobalt Complex-Derived Non-Precious Electrocatalyst (2024)

7 citations DOI OpenAlex
Dehydrogenative Conversions of Aldehydes and Amines to Amides Catalyzed by a Nickel(II) Pincer Complex (2023)

5 citations DOI OpenAlex
Guar-Based Injectable Hydrogel for Drug Delivery and In Vitro Bone Cell Growth (2023)

14 citations DOI OpenAlex
Impact of species-based wood feedstock variability on physicochemical properties of cellulose nanocrystals (2022)

11 citations DOI OpenAlex
Synthetic Matrices for Intestinal Organoid Culture: Implications for Better Performance (2021)

45 citations DOI OpenAlex
Functionalized Nanocellulose Drives Neural Stem Cells toward Neuronal Differentiation (2021)

7 citations DOI OpenAlex
Artificial Intelligence and Cancer Drug Development (2021)

18 citations DOI OpenAlex
Highly economical and direct amination of sp<sup>3</sup> carbon using low-cost nickel pincer catalyst (2021)

5 citations DOI OpenAlex