Prasenjit Kar - Department of Chemistry,Indian Institute of Technology Roorkee
Prasenjit Kar
Prasenjit Kar Associate professor 91-1332284778 Website
Areas of Interest
  • inorganic nanomaterials, Perovskite nanomaterials, and their applications towards photonics, sensors and energy., Materials for application in energy devices, synthesis and characterization of new hybrid materials
Professional Background
2010-01-011 year Post doctoral FellowOhio State University
2011-01-011 year Alexander von Humboldt postdoctoral FellowUniversity of Ulm
2012-01-011 year Postdoctoral research AssociateHanyang University
Honors and Awards
Alexander von Humboldt postdoctoral fellowshipUniversity of Ulm2011
Member of Royal Society of ChemistryRoyal Society of Chemistry2019
Fast Track Young Scientist FellowshipDepartment of Science and Technology2012
Educational Details
Ph.DChemistryCentral Salt and Marine Chemicals Research Institute2010
M.ScChemistryBengal Engineering and Science University2003
B.ScChemistryUniversity of Burdwan2001
Sponsored Research Projects
TopicFunding AgencyStart DatePeriod
1. Small Molecules for Solution Processed Organic Solar Cell SERB2013-017 years 7 months
2. Novel molecular design for Dye Sensitized solar cell CSIR2015-015 years 7 months
Long Term Stability Enhancement of Organolead Halide Perovskite NanocrystalCSIR2019-01Ongoing
  • Royal Society of Chemistry, Member of Royal Society of Chemistry, MRSC
  • Chemical Research Society of India, Life member, CRSI
  • Materials Research Society of India, Life member, MRSI
Projects and Thesis Supervised
Title of ProjectNames of Students
Perovskite solar cellPankul Dhingra
Molecular logic gateHarendra Tyagi
Application of PTCDI derivativesPrafulla Walde
Perovskite solar cellNikhil Kothari
PTCDI molecular sensorSourav Yadav
perovskite nanomaterialsAjeet
Perovskite solar cellYusuf Khan
perovskite nanomaterialsManisha bungla
stable perovskitesNabasindhu Das
PHDs Supervised
TopicScholar NameStatus of PHDRegistration Date
application of carbon nanotubesOrganic/Inorganic DyesPrem Jyoti Singh RanaA2014-01
Perovskite solar cellPallavi SinghA2015-01
Novel nanomaterials and thier applicationParulA2016-08
Hybrid materials for optoelectronicsSukanya GhoshO2018-01
All inorganic nanomaterialsAbha JhaO2018-01
Fluorescent materials and their applicationGaurav Kumar NimO2017-01
Stability enhancement of energy materialsHari SankarO2018-01
Perovskites and carbon nanomaterialsSumit KumarO2018-01
Refereed Journal Papers

Selected Publication

  1. Ajeet Kumar Sharma, Parul Bansal, Gaurav Kumar Nim and Prasenjit Kar*. Essential Amino Acid enabled Lead Bromide Perovskite Nanocrystals with High Stability. Particle and Particle Systems Characterization, Just Accepted, 2019. (IF: 4.2)
  2. Parul Bansal, Prasenjit Kar*. Ultra long  micro-belts of luminescent lead halide based perovskite nanocrystals. Chem Commun, Just accepted, 2019 (IF: 6.2)
  3. Parul Bansal, Prasenjit Kar*. Succinic acid assisted stability enhancement of colloidal organometal halide perovskite and its application as a fluorescent keypad lock. New J Chem. 4599-4604, 43, 2019.(IF: 3.2)
  4. Parul Bansal, Yusuf Khan, Gaurav Kumar Nim and Prasenjit Kar*. Surface modulationof solution processed organolead halide perovskite quantum dots to large nanocrystals integrated with silica gel G. Chem. Commun., 3508—3511, 54, 2018.(IF: 6.2)
  5. Prem Jyoti Singh Rana, Pallavi Singh, Prasenjit Kar. Carbon Nanoparticles for Ferric ion Detection and Novel HFCNs-Fe3+ Composite for NH3 and F- Estimation Based on "TURN ON" Mechanism. J. Mater. Chem. B, 2016, 4, 5929-5937. (IF: 4.8).
  6. Gisela L. Schulz, Prasenjit Kar, Martin Weidelener, Astrid Vogt, Marta Urdanpilleta, Mika Lindén, Elena Mena-Osteritz, Amaresh Mishra and Peter Bäuerle. The influence of alkyl side chains on molecular packing and solar cell performance of dithienopyrrole-based oligothiophenes. J. Mater. Chem. A, 2016, 4, 10514-10523. (IF: 10.7).
  7. Pallavi Singh, Prem Jyoti Singh Rana, Pankul Dhingra and Prasenjit Kar. Towards Removal of toxicity from Lead based perovskite             Solar Cell by Compositional Gradient using Manganese Chloride. J. Mater. Chem. C, 2016, 4, 3101-3105  (IF: 6.6)
  8. C D Wessendorf, G L Schulz, A Mishra, Prasenjit Kar, I Ata, M Weidelener, M Urdanpilleta, J Hanisch, E M Osteritz, M Lindén, E Ahlswede, P Bäuerle: Efficiency Improvement of Solution-Processed Dithienopyrrole-Based A-D-A Oligothiophene Bulk-Heterojunction Solar Cells by Solvent Vapor Annealing. Advanced Energy Materials, Volume 4, Issue 14, October 7, 2014. (IF:24.8).
  9. Verma, S., Kar, P., Banerjee, T., Das, A., Ghosh, H. N. : Sequential Energy and Electron Transfer in Polynuclear Complex Sensitized TiO2 Nanoparticles. J. Phys. Chem. Lett. 2012, 3, 1543. (IF:7.3)
# # # # # | # # #
Credits : Information Management Group, IIT Roorkee
Copyright © , All Rights Reserved, Institute Computer Centre, IIT Roorkee.