V C Joshi

Mr. Vipin Chandra Joshi

Technical Officer

Academic Qualifications

Ph.D. (Chemical Science), BE (Chemical engg.)

Contact Details

Mr. Vipin Chandra Joshi

Technical Officer

vcjoshi@csmcri.res.in

6920 / 2567760

  1. A. R. Gupta, V. C. Joshi, and S. Sharma, 2019. Remediation of arsenic from water by utilizing waste of Jatropha seed cake as low cost and ecofriendly bio-adsorbent. International Journal of Scientific Engineering and Research, 10, pp.1053-1077.
  2. A. R. Gupta, V. C. Joshi, and S. Sharma, A. Yadav, and S. Sharma, 2022. Synchronous removal of arsenic and fluoride from aqueous solution: a facile approach to fabricate novel functional metallopolymer microspheres. ACS omega, 7(6), pp.4879-4891.
  3. N. Gangani, V. C. Joshi, S. Sharma, and A. Bhattacharya, 2022. Fluoride contamination in water: remediation strategies through membranes. Groundwater for Sustainable Development, 17, p.100751.
  4. V. C. Joshi, A. R. Gupta, P. Indurkar, and S. Sharma, 2022. Rationally designed in-chain porous metallo-polymeric microsphere: a highly efficient and regenerative scavenger for ultra-trace arsenic from water. Chemical Engineering Journal, 449, p.138420.
  5. A. R. Gupta, P. D. Indurkar, M. Mondal, V. C. Joshi, A. Bhattacharya, and S. Sharma, 2023. One-pot facile approach to design an efficient macro-porous polymeric matrix to remediate Hg (II) and Pb (II) from aqueous medium and its performance evaluation study by mathematical modelling. Environmental Pollution, 323, p.121255.
  6. V. C. Joshi, S. Sharma, and A. Bhattacharya, 2023. Polymers are paving their way into defluoridation of water. Express Polymer Letters, 17(9).
  7. A. R. Gupta, M. Mondal, P. S. Bapat, V. C. Joshi, K. M. Popat, P. D. Indurkar, and S. Sharma, 2023. Construction of arsenic selective chelating resin with iron precursor for removal of low-concentration arsenic: Breakthrough modeling and field deployment. Journal of Hazardous Materials, 459, p.132000.
  8. V. C. Joshi, A.R. Gupta, M. Karthik, and S. Sharma, 2024. Emerging iron based porous metallopolymeric material with cross-linked networks for the separation of ultra-trace arsenic from aqueous environment and simulation with artificial neural network. Journal of Hazardous Materials Advances, 14, p.100417.
  9. V. C. Joshi, S. Sharma, and A. Bhattacharya, 2024. Intertwining of materials into de-arsenification of water. Bulletin of Materials Science, 47(2), p.83.
  10. V. C. Joshi, S. Shukla, and S. Sharma, 2024. Designing of a proficient macro porous metallo-polymer of iron with anion functionality: A sustainable approach for arsenic remediation from water. Desalination and Water Treatment, 320, p.100816.
  11. S. Bhattacharya, R. S. Coelho, T. T. Franco, A. Zuorro, A. Vyas, T. Mukherjee, V. C. Joshi, and M. Trif, 2025. Conversion of pentose sugars from lignocellulosic hydrolysate to isopropyl alcohol via integrated Chlorella vulgaris cultivation and yeast fermentation: An alternative fuel to diesel engines. Algal Research, 87, p.103982.


  1. Sourish Bhattacharya, Pooja Rohilla, Vipin C. Joshi, Anil R. Gupta, Sameer Prajapati, Sanjay Patel, Saroj Sharma (2021) Textile wastewater treatment, The Future of Effluent Treatment Plants: Biological Treatment Systems. 551-567

1. Equipment sizing, Hazop study, Heat and Mass balance, Process flow diagram. 2. Chemical reactions setup using standard techniques, procedures and equipment. 3. Analyse and document results, prepare technical reports (Mass and energy balance, Process flow diagram, Equipment design, Plant layout etc.), examinations and summaries. 4. Prepare, run and maintain Lab equipment such as reactors, autoclaves, analysers etc. 5. Plant scale up, Pilot plant design, installation/commissioning and operation. 6. Training, demonstration of processes to clients. 7. Comply with regulations concerning Safety, Health and Environment.

Chemical Engineering, Process Design, Scale-up, Chemical Plant Operation, Polymers, Waste to wealth, Adsorption, Ion exchange.