The College of Staten Island City University of New York | United States
Prof. Probal Banerjee is a distinguished academic and accomplished scientist whose extensive contributions to biochemical and molecular research have established him as a leading figure in his field. With an impressive record of 95 published documents, his work has garnered 4,636 citations across 3,799 documents, reflecting his strong influence and consistent impact in scientific research. He holds an outstanding h-index of 40, underscoring both the depth and the longevity of his scholarly influence. Prof. Banerjee’s research encompasses molecular biology, neurochemistry, and pharmacological sciences, contributing significantly to understanding cellular mechanisms and biochemical pathways relevant to human health and disease. He is recognized not only for his pioneering studies but also for his mentorship, having guided numerous students and researchers who now contribute globally to science and medicine. His publications are featured in reputed international journals, and his research excellence is evidenced by his ability to integrate innovative methodologies and interdisciplinary approaches. Throughout his academic journey, Prof. Banerjee has demonstrated a rare combination of scientific rigor, creativity, and leadership, earning respect from peers worldwide. His commitment to advancing biochemical research and fostering young scientific talent has solidified his position as a thought leader in his domain. Through continuous contributions to scientific innovation and education, Prof. Banerjee remains dedicated to pushing the boundaries of modern molecular and biomedical sciences, making him a valuable asset to the global scientific community.
Featured Publications
Molecules (Basel, Switzerland). (2025). One-pot synthesis of phenylboronic acid-based microgels for tunable gate of glucose-responsive insulin release at physiological pH. Molecules.
Gels. (2023). Biocompatible anisole-nonlinear PEG core–shell nanogels for high loading capacity, excellent stability, and controlled release of curcumin. Gels.
Geroscience. (2025). Salutary effects of transdermal curcumin on multiple indices of health span in rodent models of normal aging and hypertension. Geroscience.
PNAS Nexus. (2025). Targeting sickle cell pathobiology and pain with novel transdermal curcumin. PNAS Nexus.
The G protein-coupled serotonin 1A receptor augments protein kinase Cε-mediated neurogenesis in neonatal mouse hippocampus—PKCε-mediated signaling in the early hippocampus. (2022). International Journal of Molecular Sciences, 23(24).