Doctorates' Information System

     Sk Masiul Islam

Ph.D. fromINDIAN INSTITUTE OF TECHNOLOGY, KHARAGPUR - Materials Science Centre
Supervisor(s)  Prof. P. Banerji
Ph.D. status  Joined in 2011 :: Completed in 2015
AddressRoom No.- A 318, V.S. Hall, IIT Kharagpur, Kharagpur 721302
Phone+919831088559
Emailmasiulelt@gmail.com
Formal Education
Exam / Degree Board / UnivBranchYear
10WBBSEGeneral2000
12WBCHSEScience2002
B.Tech.West Bengal University Of TechnologyElectronics and Communication Engineering2009
M.Tech.Jadavpur UniversityNano Science and Technology2011

Research Areas
  • MOCVD growth of III-V compound semiconductors
  • MOS based memory devices using MOCVD grown III-V quantum dots
  • High-k Dielectric
  • Organic semiconductors based resistive switching memory devices
  • Flexible Electronics
  • Optoelectronic devices

Skills
  • Quantum dots and epitaxial layer grown by MOCVD technique
  • Thinfilms deposition- Sol-gel and RF sputtering
  • Metal deposition- e-beam, thermal evaporation, RF-sputtering
  • Electrical measurements- Capacitance-Voltage, Current-Voltage(80-300 K)
  • Measurements using- Keithley 4200 SCS, Keithley 2400
  • Sample characterizations by XPS, FESEM, AFM, PL, HRTEM, UV-VIS-NIR Spectroscopy

Papers Published in Journals
  • Leakage current characteristics in MOCVD grown InAs quantum dots embedded GaAs metal-oxide-semiconductor capacitor by Sk Masiul Islam, K. Sarkar, P. Banerji, Kalyan Jyoti Sarkar, and Biswajit Pal RSC Advances 5, 83837 (2015)
  • InAs quantum dots as charge storing elements for applications in flash memory devices by Sk Masiul Islam, Pranab Biswas, P. Banerji, S. Chakraborty Mater. Sci. Engg. B 198, 102 (2015)
  • Size effect of InAs quantum dots grown by metal organic chemical vapor deposition technique in storing electrical charges for memory applications by Sk Masiul Islam, P. Banerji RSC Advances 5, 6906 (2015)
  • Electrical bistability, negative differential resistance and carrier transport in flexible organic memory device based on polymer bilayer structure by Sk Masiul Islam, P. Banerji, S. Banerjee Organic Electronics 15, 144 (2014)
  • Low temperature MOCVD growth of high density and defect-free InAs quantum dots on (100) p-GaAs substrates for non-volatile flash memory applications by Sk Masiul Islam, Pranab Biswas, P. Banerji, Rabibrata Mukherjee Journal of Nanoscience Letters 4, 26 (2014)

Papers Presented at Conferences
  • GaAs metal-oxide-semiconductor based non-volatile flash memory devices with InAs quantum dots as charge storage nodes by Sk Masiul Islam, Sisir Chowdhury, Krishnendu Sarkar, B. Nagabhushan, P. Banerji, S. Chakraborty, and Rabibrata Mukherjee AIP Conference Proceedings 1665, 050035 (2015)
  • GaAs metal-oxide-semiconductor based non-volatile flash memory devices with InAs quantum dots as charge storage nodes by Sk Masiul Islam, Sisir Chowdhury, Krishnendu Sarkar, B. Nagabhushan, P. Banerji, S. Chakraborty and Rabibrata Mukherjee 59th DAE Solid State Physics Symposium -- (2014)
  • Charge storage properties of MOCVD grown InAs quantum dots in GaAs metal-oxide-semiconductor based non-volatile flash memory devices by Sk Masiul Islam, Pranab Biswas, P. Banerji, Rabibrata Mukherjee 4th Molecular Materials Meeting (M3)- An International conference on Sustainable Materials and Technologies (Biopolis, Singapore) -- (2014)
  • Low temperature MOCVD growth of high density and defect-free InAs quantum dots on (100) p-GaAs substrates for non-volatile flash memory applications by Sk Masiul Islam, P. Biswas, P. Banerji, R. Mukherjee International Conference on Nanotechnology (HIT, Haldia) -- (2013)
  • Chemically synthesized ZnO based ultraviolet sensors-Effect of nanosize by Pranab Biswas, Sk Masiul Islam, P. Banerji International Conference on Nanotechnology (HIT, Haldia) -- (2013)
  • Carrier transport in flexible organic memory device based on bilayer polymer structure by Sk Masiul Islam, N. N. Halder, P. Banerji 6th India-Singapore Joint Physics Symposium (ISJPS) on Physics of Advanced Materials (IIT Kharagpur, India) -- (2013)

Indian Institute of Technology, Kharagpur-721 302, INDIA
Telephone Number +91-3222-255221 | FAX : +91-3222-255303