We believe in innovation through research. BITS research enterprise encourages collaborations that make innovations and research advances possible. By bridging basic and applied research, we’re helping create new areas of research and building the foundations for industries of the future.
Understanding emulsion kinetics of surfactants
Assessment of mixed-matrix membrane system for CO2 separation for upgradation of Biogas to Bio-compressed Natural Gas (Bio-CNG)
Hybrid Gas Sensors Based on p-Type/n-Type Conducting Polymers
An in-silico and in-vitro characterization of binding affinity and internalization potential of Indian SARS-CoV-2 spike protein variants with hACE-2 and identification of potential small molecules hindering the interaction
Anti-sense, Sense and Epigenetics in Severe Malaria
High altitude-hypoxia mediates thrombosis in soldiers; modulation of autophagy as a strategy to co mbat high altitude-hypoxia induced thrombosis
Targeting Cromatin modifiers- Jumonji Histone Demethylases in tumor cells surviving acute drug stress : an in vitro and in vivo study
Analyzing the crosstalk between autophagy, cytosketal and mitochondrial dynamicity regulating epithelial to mesenchymal transition (EMT) in human glioblastoma cells
To study and gain mechanistic insights into the regulation of salmonella pathogenisis by endogenous CRISPER- Cas system
Development of sensors for blast and blight diseases and stomatal activity measurement in rice
repurposing of CNS accumulating drugs as autophagy modulators for potential treatment against glioblastoma: as in-silico, in-vitro and in-vivo study
In silico genome wide prediction of human gut microbiota derived microRNA and exploring their association with altered gene expression in host cells during cancer and cardiovascular diseases