PROFILE
Dr. Sarita Baghel
Assistant Profesor
Department of Applied Physics
IWTF 07, Delhi Technological University, Delhi
Academic Qualifications
Ph.D (2016), Department of Physics, Netaji Subhas Institute of Technology (NSIT), Faculty of Technology, University of Delhi. Thesis: Studies on the photoanode of dye sensitized solar cells
M.Sc. Physics (2008), Jamia Millia Islamia, New Delhi.
B.Sc.(Hons) Physics (2006), Miranda House, University of Delhi.
Teaching Experience: Passionate for teaching with more than 15 years of teaching experience for UG and PG Classes
PREVIOUS POSITIONS/ EXPERIENCE
Shivaji College (DU), Assistant Professor (Ad-hoc), March 2016 to January 2017
Miranda House (DU), Assistant Professor (Ad -hoc), August 2015 to Dec 2015
NSUT, Teacher cum Research Fellow (TRF), Aug 2010 to July 2014
TEACHING (COURSES TAUGHT)
Electrodynamics (PG)
Nuclear & Particle Physics (PG)
Applied Physics (UG)
MEMBERSHIPS
PUBLICATIONS
https://scholar.google.com/citations?user=TQs6ZP8AAAAJ&hl=en
1. “Study on the Various Parameters Affecting the Power Conversion Efficiency of
Lead-Free Perovskite Solar Cell by SCAPS-1D”; Rahul Kundara, Sarita Baghel,
Journal of Mines, Metals and Fuels, 70 (2022) 24–29.
2. “Device modelling of lead free (CH3NH3)2CuX4 based perovskite solar cells using
SCAPS simulation”; Rahul Kundara, Sarita Baghel, Optical and Quantum
Electronics, 55 (2023) 968.
3. “Investigating the Efficiency and Optimization of Germanium-based Perovskite
Solar Cell using SCAPS 1D”; Anushansha Yadav, Vanshika, Rahul Kundara, Sarita
Baghel, Indian Journal of Engineering & Materials Sciences, 30 (2023) 706-712.
4. “Numerical simulation of highly efficient Cs2AgInBr6-based double perovskite solar
cell using SCAPS-1D”; Vishal Deswal, Shubhda Kaushik, Rahul Kundara, Sarita
Baghel, Materials Science & Engineering B, 299 (2024) 117041.
5. “Performance analysis of LaFeO3 perovskite solar cells: A theoretical and
experimental study”; Rahul Kundara, Sarita Baghel, Solid State Communications,
389 (2024) 115590.
6. “Predictive design of KSnI3-based perovskite solar cells using SCAPS and machine
learning model”; Rahul Kundara, Sarita Baghel, Materials Science & Engineering
B, 307 (2024) 117536.
7. “Performance optimization of lead-free KGeCl3 based perovskite solar cells using
SCAPS-1D”; Rahul Kundara, Sarita Baghel, Solar Energy, 287 (2025) 113253.
8. “Performance optimization of CsSnI3-based perovskite solar cells using SCAPS-1D
and machine learning analysis”; Rahul Kundara, Sarita Baghel, Journal of
Optics, (2025).
9. “Device modelling and optimization of new lead-free (NH4)3Sb2I9 perovskite solar cells by using
SCAPS-1D software”; S Singh, R Kundara, S Baghel, Physica Scripta,100 (2025) 075012.
10. “Comprehensive study of highly efficient Rb2AgInX6 (X= Cl, Br, I) based lead-free double
perovskite solar cells”; V Deswal, S Baghel, Physica Scripta, (2025) 035982.