Patents
Development of Alcoholic sucrose-based Superplasticizer for Geo-polymeric concrete and its process thereof
US 2022/0315490 A1
Inventors:M. Mudgal, A. Kumar, R. K. Chouhan, A. Singh, A.K. Srivastava Ref. No. 0002NF2021
2022
Nanoalumina nano silver activated carbon composite incorporated water filter and process for preparation thereof.
Patent no. 402610
Inventors:I.B. Singh, A. Singh, Surender Kumar, A.K. Srivastava Ref. number: 0076NF2018
2021
Nanoadsorbent based user friendly household filter for the purification of fluoride and arsenic contaminated water
Patent number: US 2019/0358592 A1
Inventors:I.B.Singh, A. Singh, S.Kumar, A. Tomar, P. Arya, S. Dubey, A.K. Srivastava
2019
Facile and low temperature synthesis method for Li4Mn5O12nanorods using pre- synthesized γ-MnOOH nanowires.
Patent number: 345587
Inventors:I.B. Singh, A. Singh and S. Das
-0001
Nanophosphatic hybrid geopolymeric corrosion resistant coating material and a method of preparation thereof.
Patent number: US9938414B2
Inventors:S.S. Amritphale, D. Mishra, A. Singh, A.Anshul, S. Das, Patent number:
US9938414B2
-0001
Nanoalumina MnO2 composites for removal of iron (II) from drinking water for removal of Iron (II) from drinking water
Appl. No. 202111015431
Inventors:A. Singh, S.Kumar, M. Mudgal, A.K. Srivastava
-0001
Low cost process of preparing of nanoparticles of gamma alumina useful for defluoridation of drinking water
Patent No. 384052
Inventors:I.B.Singh, A. Singh, S.Kumar, A. Tomar, P. Arya, S. Dubey, A.K. Srivastava
-0001
Advanced Inorganic – Organic Geopolymeric Corrosion Protective Coating Material for Mild Steel
Appl. No. 202011041359
Inventors:I.B.Singh and A. Singh, Ref. number: 0003NF2020
-0001
Our team is focused on Electrochemical CO2 Reduction (ECO₂R) by developing innovative catalysts and optimizing reaction conditions for improved efficiency and selectivity. We focus on converting CO2 into valuable chemicals and fuels with minimal energy input, using high-performance catalysts to reduce operational costs. By enhancing reaction kinetics, stability, and scalability, we aim to make ECO₂R commercially viable. Our goal is to enable global deployment, reducing CO2 emissions while creating economic value through marketable products, contributing to a sustainable, carbon-neutral future.
Our lab develops advanced, sustainable materials for water purification, targeting contaminants like fluoride, arsenic, iron, and harmful bacteria (e.g., E. coli) through innovative adsorbents. We’ve also created an eco-friendly hypochlorite device that produces disinfectant from salt and water, offering a cost-effective, chemical resolution for homes, hospitals, and public spaces. Additionally, we study microplastic contamination in water and ecosystems, conducting lab and field analyses, including in the Bhopal region, to understand its impact and pathways and to inform sustainable waste management strategies.