1. Materials Science

2. Solid State Physics

1. Nano-structured materials for electrochemical device applications (Solid Oxide Fuel cells, Alkaline Fuel Cells, Sensors etc.)

2. Tailoring material's micro-structures

3. Electrochemical Impedance Spectroscopy

4. Materials Science.

1. ISSN International Best Researcher Award, (2022).

2. Postdoctoral Fellowship for Women, UGC, New Delhi, India (2013).

3. CSIR Foreign Travel Grant, for attending International Conference on Solid State Ionics, Japan (2013).

4. Best Poster Award, National Seminar on Materials Preparation and Characterization: Nano-particles and Future Trends, Nagpur, India (2013).

5. Research Associate (RA) Fellowship, CSIR, New Delhi, India(2012).

6. Best Poster Award, 4th International Symposium on Materials Chemistry, BARC, Mumbai, India (2012).

7. DST, International Travel Support, for attending Internal Conference on Materials for Advanced Technologies, Singapore (2011).

8. Bursary Award by ICTP, Italy, to attend Workshop on Advanced Oxide Interfaces, Italy (2011).

9. Bursary Award by ICTP, Italy, to attend School on Synchrotron and Free-Electron-Laser Sources and Their Multidisciplinary Applications, Italy (2010).

10. Rajiv Gandhi National Fellowship UGC, New Delhi, India (2007).

Teaching

1. Assistant Professor, Department of Physics, IIITDM, Kancheepuram, India (2018-till date).

2. Cont. Lecturer Department of Physics, RTM Nagpur University, India (2007-2008).

Research

1. Research Fellow, School of Chemistry, University of St Andrews, UK (2014 - 2016).

2. Research Associate, (Indo-UK Project, DST New Delhi), Dept.of Physics, RTM Nagpur University and Dept. Materials Science and Metallurgy, University Cambridge, UK (2012 - 2014).

3. Visiting Scientist, Dept. Materials Science and Metallurgy, University Cambridge, UK (2013).

Industry

1. Research Consultant, Solutions 4 Hydrogen Pvt. Ltd. Pune, India (2016 - 2018).

2. Research Coordinator, Solutions 4 Hydrogen Pvt. Ltd. Pune, India (2011 - 2012).

1. Life Member, Materials Research Society, India (MRSI).

2. Life Member, Society for Materials Chemistry, India.

3. Regular Member, American Chemical Society, USA.

4. Full Member, Organization for Women in Science for the Developing World, Italy.

1. Reviewer for Int. J. Hydrogen Energy, Bulletin of Materials Science, J. Physics and Chemistry of Solids, Chemical Physics Lett., J. Pure and Applied Physics, Catalysis, Crystals.

2. Guest Associate Editor- Frontier in Energy Research.

3. Professor-In-Charge- Hindi Section.

4. Member-Teaching Learning Centre.

5. Doctoral Committee Member- VIT Vellore, VIT Chennai.

6. Warden, Girls Hostel, IIITDM-Kancheepuram, India (2018-2019).

7. Co-coordinator, Scholarship and Weaker Section, IIITDM-Kancheepuram, India (2018-2020).

8. Member, Anti-ragging Committee, IIITDM-Kancheepuram, India (2018-2019).

9. Member, Disciplinary Committee, IIITDM-Kancheepuram, India (2018-2019).

1. Engineering Electromagnetics.

2. Physics of Materials.

3. Digital and Analogue Circuits Design.

4. Materials Science in Energy Technology.

5. Numerical Methods.

1. 1. Electrocatalysts for solid oxide fuel cells, CRC Press 2020 Taylor & Francis Group, LLC, 195-220, ISBN: 9780367275471

1. A review on recent progress and selection of cobalt-based cathode materials for low temperature-solid oxide fuel cells, R Vinoth Kumar and A P Khandale, J. Renewable and Sustainable Energy Reviews, 156 (2022) 111985.

2. Investigation of Ce0.9Gd0.1O2- dispersed Sm1.5Sr0.5NiO4: Cathode for intermediate temperature solid oxide fuel cell application, A. P. Khandale and S.S. Bhoga, International Journal of Hydrogen Energy, 46(2021)2511-2529

3. Development of Pr2-xSrxCuO4 mixed ion-electron conducting system as cathode for intermediate temperature solid oxide fuel cell, A. P. Khandale, B.S. Pahune , S. S. Bhoga, R.V. Kumar c , R. Tomov, International Journal of Hydrogen Energy, 44 (2019) 15417-15435.

4. Bansod, M. B., Khandale, A. P., Kumar, R. V. & Bhoga, S. S. Crystal structure, electrical and electrochemical properties of Cu co-doped Pr1.3Sr0.7NiO4+δmixed ionic-electronic conductors (MIECs). Int. J. Hydrogen Energy 43, 373–384 (2018).

5. Chaudhari, V. N., Khandale, A. P. & Bhoga, S. S. Synthesis and characterization of Ce-doped Sm2CuO4+δ cathode for IT-SOFC applications. Ionics (Kiel). 23, (2017).

6. Chaudhari, V. N., Khandale, A. P. & Bhoga, S. S. An investigation on strontium doped Sm2NiO4+δ cathode for intermediate temperature solid oxide fuel cells. J. Power Sources 248, (2014).

7. Punde, J. D., Khandale, A. P. & Bhoga, S. S. Effect of Sr doping on structural, electrical and electrochemical properties of Nd2-xSrxNiO4+δ mixed ionic-electronic conductors. Indian J. Pure Appl. Phys. 51, (2013).

8. Gedam, S. K., Khandale, A. P. & Bhoga, S. S. Development of solid proton conductors based on doped polyvinyl alcohol. Indian J. Pure Appl. Phys. 51, (2013).

9. Punde, J. D., Khandale, A. P. & Bhoga, S. S. Influence of synthesis route on electrical and electrochemical properties of Nd1.8Sr0.2NiO4 + δ. Solid State Ionics 262, (2014).

10. Bhoga, S. S., Khandale, A. P. & Pahune, B. S. Investigation on Pr2- XSrxNiO4+δ (x = 0.3-1.0) cathode materials for intermediate temperature solid oxide fuel cell. Solid State Ionics 262, (2014).

11. Chaudhari, V. N., Khandale, A. P. & Bhoga, S. S. Sr-doped Sm2CuO4; cathode for intermediate temperature solid oxide fuel cells. Solid State Ionics 268, (2014).

12. Khandale, A. P., Bansod, M. G. & Bhoga, S. S. Improved electrical and electrochemical performance of co-doped Nd1.8Sr0.2Ni1-xCuxO4+δ; Solid State Ionics 276, (2015).

13. Bansod, M., Khandale, A. P. & Bhoga, S. S. Structural and electrochemical investigation on Ga3+doped Pr1.3Sr0.7Ni0.7Cu0.3O4+δ cathodes for IT-SOFC applications. Ionics. 23, (2017).

14. Khandale, A. P., Bhoga, S. S. & Kumar, R. V. Effect of Ni doping on structural, electrical and electrochemical properties of Nd1.8Ce0.2Cu1-XNiO4+δ mixed ionic-electronic conductor. Solid State Ionics 238, (2013).

15. Khandale, A. P., Punde, J. D. & Bhoga, S. S. Electrochemical performance of strontium-doped neodymium nickelate mixed ionic-electronic conductor for intermediate temperature solid oxide fuel cells. J. Solid State Electrochem. 17, (2013).

16. Khandale, A. P., Bhoga, S. S. & Gedam, S. K. Study on ammonium acetate salt-added polyvinyl alcohol-based solid proton-conducting polymer electrolytes. Ionics (Kiel). 19, 1619–1626 (2013).

17. Khandale, A. P., Lajurkar, R. P. & Bhoga, S. S. Nd1.8Sr0.2NiO4-δ:Ce0.9Gd0.1O2-δ composite cathode for intermediate temperature solid oxide fuel cells. Int. J. Hydrogen Energy 39, (2014).

18. Khandale, A. P. & Bhoga, S. S. Effect of Sr doping on structural, electrical and electrochemical properties of Nd2CuO4 for IT-SOFC application. Solid State Ionics 262, (2014).

19. Khandale, A. P. & Bhoga, S. S. Electrochemical performance of Nd1.8Ce0.2CuO4±δ mixed-ionic-electronic conductor for intermediate solid oxide fuel cells. Solid State Ionics 182, (2011).

20. Bhoga, S. S. & Khandale, A. P. Cathode materials for intermediate temperature solid oxide fuel cells. Indian J. Pure Appl. Phys. 51, (2013).

21. Khandale, A. P. & Bhoga, S. S. Combustion synthesized Nd2-xCexCuO4 (x = 0-0.25) cathode materials for intermediate temperature solid oxide fuel cell applications. J. Power Sources 195, 7974–7982 (2010).

22. Khandale, A. P. & Bhoga, S. S. Effect of synthesis route on electrical and electrochemical performance of Nd1.8Ce0.2CuO4+δ cathode material for intermediate-temperature solid oxide fuel cells. Int. J. Appl. Ceram. Technol. 10, (2013).

23. Khandale, a. P. & Bhoga, S. S. Study of Mechanochemically Prepared Nanostructured Nd 1.8 Ce 0.2 CuO 4 Cathode. Integr. Ferroelectr. 116, 59–67 (2010).

24. Khandale, A. P. & Bhoga, S. S. An investigation of different Nd1.8Ce0.2CuO 4+δ-Ce0.9Gd0.1O2-δ composite cathodes. Electrochim. Acta 130, (2014).

25. Khandale, A. P. & Bhoga, S. S. Study of Nd2–x Ce x CuO4 ± δ (x = 0.1–0.25) as cathode material for intermediate-temperature solid oxide fuel cells. J. Solid State Electrochem. 16, 341–352 (2012).

26. Khandale, A. P. & Bhoga, S. S. Nd1.8Ce0.2CuO4+δ:Ce 0.9Gd0.1O2-δ as a composite cathode for intermediate-temperature solid oxide fuel cells. J. Power Sources 268, (2014).

27. Khandale, A. P. & Bhoga, S. S. Electrochemical performance of a mechanochemically prepared submicron-sized crystalline Nd1.8Ce0.2CuO4±δ cathode for intermediate temperature solid oxide fuel cells. Electrochim. Acta 56, (2011).

28. Khandale, A. P. & Bhoga, S. S. Electrochemical performance of microwave synthesized Nd1.8Ce0.2CuO4±δ cathode for intermediate temperature solid oxide fuel cell applications. J. Alloys Compd. 509, (2011).

29. Nagle, K. R. Khandale, A. P. & Bhoga, S. S. Synthesis and Characterization of Nanocrystalline Gd Doped CeO2. Asian J Chem.. 21, 13–16 (2009).

1. Khandale, A. P. Bhoga, S. S. & Bansod, M. G. Effect of synthesis route on structural and electrical properties of BaSrFeO4+δ cathode ITSOFC application, Proc. National seminar on nanoparticles and future trends, 2013 (ISBN # 978-93-82351-20-7) p. 95-99.

2. Khandale, A. P. Bhoga, S. S. & Ramteke, A. D. Electrochemical performance of Ag impregnated Nd1.8Ce0.2CuO4+δ cathode for intermediate temperature-Solid oxide fuel cell, Proc. National seminar on nanoparticles and future trends, 2013 (ISBN # 978-93-82351-20-7) p. 100-110.

3. Khandale, A. P. & Bhoga, S. S. Cathode materials for intermediate temperature solid oxide fuel cells (IT-SOFC) Proc. National seminar on nanoparticles and future trends, 2013 (ISBN # 978-93-82351-20-7)p. 2-11.

4. Khandale, A. P. Bhoga, S. S. & Lajurkar, R. P. Study of thermochemical stability of Nd1.8Sr0.2NiO4+ with different electrolytes Proc. UGC sponsored National Conference on Synthesis and Applications of Novel Materials, 2013 (ISSN # 2229-4554) p. 59-61.

5. Khandale, A. P. Bhoga, S. S. & Choudhari, V. N. Study on Sr doped Sm2CuO4 cathode for intermediate temperature solid oxide fuel cells, Proc. UGC sponsored National Conference on Synthesis and Applications of Novel Materials, 2013 (ISSN # 2229-4554) p. 43-46.