Dr. (Mrs.) Madhuchhanda Choudhury



National Institute of Technology (NIT) Silchar

Department of Electronics and Communications Engineering

Silchar, Assam, 788010, India

Email: m_chhanda@rediffmail.com

Personal Webpage: http://ec.nits.ac.in/mchhanda/




International Journals

  1. A.Ganguly, S. S. Nath, G. Gope, M. Choudhury. CdS quantum dot sensitized zinc oxide based solar cell with aluminum counter electrode, Nanosystems: Physics, Chemistry, Mathematics, 2017, 8 (6), P. 782–786 [ESCI]
  2. A. Ganguly, S. S. Nath, G. Gope, M. Choudhury. A back illuminated solar cell using PbS quantum dots an sensitizers. International Journal of Nanoparticles. Vol.10, No. 3, 2018, pp.218-214 [SCOPUS]
  3. A. Ganguly, S.S. Nath, and M. Choudhury. Copper Doped PbS Quantum Dots as Sensitizers for Solar Cells. J. Nanoelectron. Optoelectron. 2018, Vol. 13. No. 6. Pp. 906-911 [SCI]
  4. A. Ganguly, S.S. Nath, and M. Choudhury. Copper Doped CdS Quantum Dots as Sensitizers for Solar Cells. IET Micro Nano Letters. 2018, Volume: 13, Issue- 8, Pp. 1188 – 1191 [SCI]
  5. A. Ganguly, S.S Nath, and M. Choudhury. Enhanced Efficiency in SHI irradiated CdS Quantum Dots Sensitized Solar Cell. IEEE Photonics Technology Lett. 2018, DOI: 10.1109/LPT.2018.2868517 (in press). [SCI]
  6. A. Ganguly, S. S. Nath, and Madhuchhanda Choudhury. Effect of Mn Doping on Multilayer PbS Quantum Dots as Sensitized Solar Cell. IEEE Journal of Photovoltaics. 2018, DOI: 10.1109/JPHOTOV.2018.2861748 (in press). [SCI]
  7. Merin Loukrakpama, Ch. Lison Singh, Madhuchhanda Choudhury, “Error-aware Design Procedure to Implement Energy-efficient Approximate”, Nanoscience & Nanotechnology-Asia, DOI: 10.2174/2210681209666190807143557
  8. Merin Loukrakpam, Madhuchhanda Choudhury, “Implementation of Energy-Efficient Approximate Multiplier With Guaranteed Worst Case Relative Error”, Elsevier Microelectronics Journal, June 2019, Volume 88, pp 1-8; DOI: https://doi.org/10.1016/j.mejo.2019.04.006
  9. Merin Loukrakpam,Madhuchhanda Choudhury, “Error-aware design procedure to implement hardware-efficient antilogarithmic converters”, Springer Circuits, Systems, and Signal Processing, February 2019, Volume 38, Issue 9, pp 4266-4279; DOI: https://doi.org/10.1007/s00034-019-01062-9
  10. M.Choudhury, S.S Nath, R.K Nath. ZnO: PVP Quantum dot Ethanol Sensor. Published in Journal of Sensor Technology, 2011, 1, 86-90
  11. S.S Nath, M.Choudhury, R.K Nath. Synthesis of PVP embedded ZnO quantum dots and the investigation of mathsnol sensing properties, Published in J. Nanotech.Prog. INT. (JONPI) issue 4, 2011.
  12. S.S Nath, M. Choudhury, R.K Nath and G. Gope. PVA embedded ZnO Quantum dots for methanol sensing, Published in Nanotrands ( A Journal of Nanotechnology and its Applications) at 03 August 2010.
  13. M. Choudhury, S.S Nath, R.K Nath, D . Chakdar, G.Gope, R.Das. . ZnO quantum dots in SBR latex for Methanol Sensing, Published in Assam University Journal of Science and Technology: Physical Sciences and Technology Vol.6 Number II 46-50,2010
  14. S.S Nath, M. Choudhury, D.Chakdar, G.Gope, R.K Nath, Acetone sensing property of ZnO quantum dots embedded in PVP, Accepted for publication in journal (4th June 2010)“Sensor & Actuator” B 148(2010)353-357.
  15. M.Choudhury , S.S Nath , D . Chakdar , G. Gope and R.K Nath, Acetone sensing of ZnO quantum dots embedded in PVA matrix, Accepted for publication in journal “ Advanced Science Letters “vol .3,pp 1-4, (2010)