Post Docs

Archini Paruthi

Archini Paruthi

Post Doctoral Fellow

Room No: TF-28
Email: archinip@iisc.ac.in 
Group Webpage: http://nnfc.cense.iisc.ac.in/nano/index.html 
Faculty Advisors: Prof. Navakanta Bhat, CeNSE.

Education
• Start Early PhD (Materials Science and Engineering), Indian Institute of Technology, Gandhinagar (July 2014 – Nov 2020)
• B.Tech. (Biomedical Engineering), VIT University, Vellore (2010-2014)

Experience
• Postdoctoral Research Associate, CeNSE (Jan 2021- Feb 2022)
• Visiting Research Fellow (School of Pharmacy), University of Colorado, Denver, USA (2019)

Research Interests
• Nanosafety
• Electrochemical Biosensing for cardiac health monitoring

Publications
• Paruthi, A., Brown, J. M., Panda, E., Gautam, A. R. S., Singh, S., & Misra, S. K. (2021). Transformation in band energetics of CuO nanoparticles as a function of solubility and its impact on cellular response. NanoImpact, 22, 100324.

• Goyal, P., Paruthi, A., Menon, D., Behara, R., Jaiswal, A., Keerthy, V., Kumar, A., Krishna, V. and Misra, S.K. (2021). Fe doped bimetallic HKUST-1 MOF with enhanced water stability for trapping Pb (II) with high adsorption capacity. Chemical Engineering Journal, p.133088.

• Persaud, I., Raghavendra, A., Paruthi, A., Alsaleh, N.B., Minarchick, V.C., Roede, J.R., Podila, R. and Brown, J.M. (2020). Defect-induced electronic states amplify the cellular toxicity of ZnO nanoparticles. Nanotoxicology, 14(2), pp.145-161.

• Kansara, K., Paruthi, A., Misra, S.K., Karakoti, A.S. and Kumar, A. (2019). Montmorillonite clay and humic acid modulate the behavior of copper oxide nanoparticles in aqueous environment and induces developmental defects in zebrafish embryo. Environmental Pollution, 255, p.113313.

• Paruthi, A., Rajput, V. and Misra, S.K. (2019). Single platform spin-spin nuclear relaxation time (1H NMR) based technique for assessing dissolution and agglomeration of CuO nanoparticles. NanoImpact, 14, p.100148.

• Paruthi, A. and Misra, S.K. (2018). Solubility of Nanoparticles and Their Relevance in Nanotoxicity Studies. In Nanobiotechnology (pp. 375-387). CRC Press.

• Paruthi, A. and Misra, S.K. (2017). Relaxation time: a proton NMR-based approach as a metric to measure reactivity of engineered nanomaterials. Journal of Nanoparticle Research, 19(8), pp.1-12.

Conference and Seminars
• Paruthi, Archini, Singh, Sanjay, and Misra, K. Superb., ‘’Study on variation in bandgap of CuO and NiO nanoparticles towards understanding cellular toxicity’’, BioMET 2018, Vellore, IN, 24th – 28th July 2018 (Recognized by ACS Applied Biomaterials; Best Oral Presentation award)

• Paruthi, Archini, Singh, Sanjay, and Misra, K. Superb.,’’ Reactivity mediated variation in bandgap of oxide-based nanomaterials and mapping of its toxic potential’’, NanoSafe 2018, Grenoble, FA, 5th – 9th November 2018

• Paruthi, Archini and Misra, Superb K., “Spin-spin nuclear relaxation time as a platform to evaluate reactivity of CuO nanoparticles”, International conference on Nanotechnology: Ideas, Innovation and Initiatives (ICN: 3I-2017), IIT Roorkee, India, 06th -08th December 2017. (Best Oral Presentation award)

• Paruthi, Archini and Misra, Superb K., “Surface Area: A study to facilitate Nanosafety studies, IC- IMPACTS at University of Alberta, Edmonton, CA, May 29- June 03, 2016.