santanudas.cer's picture
Dr. Santanu Das
Assistant Professor
Department Of Ceramic Engineering IIT(BHU)
santanudas.cer@iitbhu.ac.in
+91-9918910417
Area of Interest: 
Synthesis, Properties, and Applications of Functional Nanomaterials, including, Graphene, 2D metal-dichalcogenides, and Quantum Dots, Electronics and electrochemical properties, Functional Nanomaterials for electronic and energy devices.

Dr. Santanu Das is currently appointed at Department of Ceramic Engineering, Indian Institute of Technology (BHU) as Assistant Professor.
Dr. Das's research interests lie in synthesis of thin-films, two-dimensional (2D) graphene and transition metal dichalcogenides (TMDs) materials and applications based on these materials in order to solve the issues & challenges in electrochemical energy devices, electronic and optoelectronic devices, energy storage, and sensors. His research activities involved in the synthesis and characterizations of the physical/electrochemical properties of 2D graphene and TMDs materials for hydrogen generation, plasmonic devices, catalysis/photocatalysis/photoelectrocatalysis, optoelectronic sensors, energy storage, sensors, and other electronic device applications. Besides the 2D material approach, his research also involves synthesis and processing of various nanostructures including, CNT, semiconductor heterostructures, hybrid materials(Graphene/graphene-based ceramic hybrids and other 2D heterostructure).

Dr. Das also worked as a Research Scientist at the University of North Texas, the USA from  April 2014 to March 2016 and worked as a postdoctoral associate from  September 2012 to March 2014. He did his Ph.D. from Florida International University (FIU) (2008-2012) and received an outstanding Ph.D. dissertation award and recognition by the Dean, College of Engineering and Computing of FIU. Dr. Das is also a recipient of numerous prestigious awards including "Dissertation Evidence Acquisition and Dissertation Year Fellow” scholarships during his doctoral study. In addition, he also received numerous research awards including; the McARE (by American Ceramic Society) awards, FIU scholarly forum award and prestigious MRS Awards, etc. He was the winner of the University gold medal in IIT (BHU) in his master's course. He has published ~ six book chapters, two invited reviews, and more than 95 SCI-indexed high-impact research articles in prestigious international peer-reviewed journals (including ACS NANO, Advanced Functional Materials, Journal of Materials Chemistry, ACS Applied nanomaterials, Carbon, Journal of Materials Chemistry A, Nature Scientific Reports, and many more). His publications have a total of ~ 3100 citations with an h-index of 31, and an i-10 index of ~ 60. Dr. Das also holds 8 patents, among which 2 are US patents. Very recently, Dr. Das became a Fellow of the "Indian Chemical Society" and became the IEEE senior fellow, which is very well known as the top 5% achievers among the IEEE society.  http://drsantanudas.com/ 

Research Positions Available: Ph.D. positions and Postdoc positions are available. Strongly motivated people should contact Dr. Das (santanudas.cer@iitbhu.ac.in) directly for discussion on the work and position.

Education:


2008-2012
                              
 
2003-2005
 
 
1999-2003
 
 
Ph.D., Materials Science and Engineering
Florida International University, Miami, FL, USA.
 
M.Tech, Ceramic Engineering
Indian Institute of Technology, Varanasi, India.
 
B.Tech, Ceramic Technology
University of Calcutta, Kolkata, India.

Professional Experiences:

March 2016 - ….
 
 
 
 
 May, 2014- Feb 2016
 
 Assistant Professor, Department of Ceramic Engineering, Indian Institute of Technology, BHU, Varanasi, India
Current Responsibility: Teaching, Research, and Administrative Jobs
 
 
 
Research Scientist, Department of Materials Science and Engineering,
(University of North Texas, Denton, TX)
 
Sept, 2012–April, 2014
 
Post-Doctoral Research Associate, Department of Materials Science and Engineering, (University of North Texas, Denton, TX)
 
Summer 2011
 
 
Research Assistant Professor (Visiting)
(Hanyang University, Seoul, South Korea)
Summer 2009
 
Research Assistant Professor (Visiting)
(Hanyang University, Seoul, South Korea)
 
Jan 2008 to Aug 2012 Graduate Research Assistant/Graduate Teaching Assistant
(Florida International University, Miami, FL)
 
Aug 2006-Aug 2007 Scientist
(National Metallurgical Laboratory, Govt. of India)
 
Sept 2005-Aug 2006 Senior Research Fellow
(Central Glass and Ceramic Research Institute, Govt. of India)

Research Positions: Ph.D. positions and Postdoc positions are available. Strongly motivated and interested candidates should contact Dr. Santanu Das (santanudas.cer@iitbhu.ac.in, +919918910417) directly regarding discussion on the work and position.

Professional Highlights

  • Over Twelve years of experience of developing advanced materials/advanced functional materials, nanomaterials and semiconductors using advanced tools in class 100 clean rooms.
  • Over three years Research scientist experience and contributed to setup advanced materials laboratory and nanotechnology and device laboratory at University of North Texas (UNT), USA.
  • Worked on several advanced research fields of “2D semiconductor/graphene nano-hybrid interface as a novel photodetectors”, “synthesis of 2D transition metal di-chalcogenides using CVD method”, “Highly conducting nanocomposite thin-films using sputtering for deeply scaled interconnects”, “Electrocatalytic thin films using PLD for various functional applications”, and “nanocomposites for energy harvesting and storage”.
  • Extensive research and teaching expertise encompassing materials science, metallurgy, nanotechnology, semiconductor processing, ceramics (oxide/non-oxide materials), electron microscopy, spectroscopy, atomic force microscopy, chemical vapor deposition, Micro/Nano-fabrication, electrochemistry, catalysis, electro-catalysis, advanced materials processing and characterizations, solar-cells, thermodynamics, solid state physics.
  • Passionate about executing new research ideas, data analysis, publishing research articles (h-index: 19; i-10 index: 30; Total Citations: 1226). To date delivered 6 patents, 3 book chapters, 1 invited review, more than 50 peer reviewed journal articles, 9 conference proceedings, over 55 presentations at international conferences and 18 invited talk.

More details can be found in the “List of publications” Tab   http://www.drsantanudas.com/research.html,  http://www.drsantanudas.com/researchgroup.html

Research Interests:

Synthesis, Properties, and Applications of Functional Nanomaterials, including, Graphene, 2D metal-dichalcogenides, and Quantum Dots. Electrical and electrochemical properties of nanomaterials/nano-composites, Functional Nanomaterials for electronic and energy devices. plasmonic materials & devices, Thin-film electronics, coating technology, electrochemistry.  

Research Facilities:
Dr. Das's Own Research Facilities:
1. Micro-Raman Spectroscopy
2. Chemical Vapor Deposition Unit 
3. Vapor phase epitaxy system 
4. Vacuum Inert furnace
5. Dual-channel Electrochemical Workstation inbuilt with electrochemical impedance spectroscopy
6. Spin coater/solution process thin-film fabrication unit
7. RF/DC Magnetron sputtering for thin-film fabrication
8. High-power probe-sonicator
9. Electrophoresis Unit
10.  Electrical and Electronic Characterization Unit
11. Transistor Characterization Unit
12. UV/light-Chamber for photocatalysis
13. Electrochemical Workstation inbuilt with electrochemical impedance spectroscopy
14. Vacuum Oven

Institute Common Facilities:
1. SEM/FESEM
2. Transmission Electron Microscopy
3. Atomic Force Microscopy
4. X-ray Diffractometer
5. Vibrating Sample Magnetometry inbuilt with SQUID
6. FTIR
7. UV-VISIBLE spectroscopy
 
Ongoing Research Projects:
AS PI:
3. Metal nanostructures assisted plasmonic hot electron induced phase transformation in 2D-transition metal di-chalcogenides for hydrogen evolution reaction, MoE-STARS Project, (2020-2023).
2. CoolLongboat Project on “Materials for hydrogen generation by solar water splitting”, From Norwegian Council of Education and Research, Norway (2021-2024)

AS Co-PI:
1. Ageing studies and estimation of thermal properties of liner materials, Defense Research Development Organizations (DRDO), (2019-2022).

Completed Research Projects:
AS PI:
9. Development of Ceramic Nitride thin-films for soft x-ray applications, UGC-DAE consortium for Scientific Research, (2020-2021)
8. Seasonal Effect on Solar-Driven Photocatalytic Performance in India Environment, Project sponsorer: Swansea University, UK (2021-2022)
7. Seamless synthesis of 2D transition metal di-chalcogenides for optoelectronics devices, SERB/DST, (2016-2019).
6. “Development of High Alumina (Al2O3) and doped High Alumina materials for Ceramic Cartridge Applications”, YANTRANSH AUTO PVT. LTD., Rajkot, Gujarat, India, (2019-2020)
5. “Amplifying charge-transfer mechanism at the hybrid graphene interfaces for developing ultra-high energy density supercapacitor devices”; Center for Energy Research and Developments /FAST scheme MHRD (January 2017- July 2018
4. “Fabrication of an all-transparent flexible 2D-graphene based phototransistor device”, Design and Incubation Center, Banaras Hindu University (2017-2019).
3. Development of functionalized graphene electrode for high-energy density supercapacitor applications, Indian Institute of Technology (BHU), (2017-2019)
2. Development of Large Scale Graphene and Its Heterostructures: Fundamental Properties to Electronic Applications, Indian Institute of Technology (BHU)
AS Co-PI:
1. “Development of a high throughput processing for CIGS PV absorber films by spray pyrolysis of pre-synthesized nanoparticle ink, DST-SERB, (2016-19)
 

Patents:
12.  Das, S., Singh, V. K., Mukherjee, B., A process of preparing in situ -SO3H- functionalized two-dimensional MoS2 nanosheets/nanoflowers and making electrocatalytic electrodes thereafter, patent applied (2022).
11.   Das, S., Singh, V. K., Mukherjee, B., A METHOD FOR DEVELOPMENT OF SYNERGISTIC NANO HYBRID STRUCTURE ON NANORODS, Govt. of India, patent application # 202111028517 (2021) published online.
10. Das, S., Jit, S., Kumar, C., Kumar, R., A TWO DIMENSIONAL PHOTOSENSITIVE METAL OXIDE SEMICONDUCTOR (MOS) CAPACITOR, Govt. of India, patent application # 202011017140 (2020).
9. Das, S.; and Mukherjee, S.; Aluminum based metallic glass powder for efficient degradation of AZO dye and other toxic organic chemicals (2020) (US patent # US10363548B2) PATENT Granted on 20th February 2020.
8. Das, S.; and Mukherjee, S.; Binary Cu-Ag metallic glass thin film for electronic applications (2018) (US patent # US20180044782A1) PATENT Granted on 03rd November 2020.
7. Maiti, P.; and Das, S.; LOW-COST ADHESIVE FOR THE METAL-CERAMIC JOINTS, filed, (2019) (Patent Application No: 201911002765) technology transferred already.
6. Das, S.; Magnesium zinc ferrite-polyurethane nanocomposite based sprayable paint and making a coating thereof as broadband microwave absorber in gigahertz frequency range, (2019) (Patent Application NO: 201911000437).
5. Das, S.; Preparation of graphene-oxide nanocomposites based sprayable paint and making of a large-scale coating with superior broadband absorptivity in the range of GHz frequency (2019) (Patent Application NO: 201911008550).
4. Das, S.; AN ALKALINE EARTH METAL DOPED ZINC OXIDE NANOSHEETS AND METHOD OF PREPARATION THEREOF, Govt. of India, NOVEMBER 28, 2018 (Patent Application NO: 201811044916) Published.
3. Das, S.; HIGH SURFACE AREA, HIGH PURITY AND HIGH CONDUCTANCE MONO-LAYERED REDUCED GRAPHENE OXIDE Govt. of India (2017) (Patent Application No: 201711043028) published.
2. Das, S.; A GREEN METHOD FOR REDUCING GRAPHENE OXIDE, 2017, Govt. of India (Patent Application No: 201711036056) published.
1. Das, S.; A coating composition for making a sensor useful for the selective detection of sulphur dioxide and process for the preparation thereof, Patent No: IN277556 [India], Award Date: 02-12-2016.
 
 
Total Citations: 3100, h index: 31, i-10 index: 60    
Book Chapter:                                   
Book:
1. S. Jit and S. Das, 2D NANOSCALE HETEROSTRUCTURED MATERIALS, Elsevier Publication, published on 08th May 2020.

Book Chapters:                       
6.    S. K. Ghosh, S. Das, S. Bhattacharyya; Recent Advancement in Graphene-Based Metasurface Structures, Low-Dimensional Nanoelectronic Devices: Theoretical Analysis and Cutting-Edge Research, Ed. Angsuman Sarkar and Arpan Deyasi (2021) Apple Academic Press, Inc.
5.   C. Kumar, S. Das, and S. Jit; Device Physics and Device Integration of 2D Heterostructures, 2D NANOSCALE HETEROSTRUCTURED MATERIALS: SYNTHESIS, PROPERTIES AND APPLICATIONS; Editors: S. Jit and S. Das, Elsevier Publication, published on 08th May 2020.
4.   A. K. Bandyopadhyay, B. Sarkar, S. Das, M. Laskar, A. Ghosal, Multisolitons in SRR based Metamaterials in Klein-Gordon Lattice, chapter-10 in Computational Chemistry Methodology in Structural Biology and Materials Sciences, Ed. by Chakraborty, T.; Ranjan, P.; Pandey, A.; (2017) Apple Academic Press,  New Jersey, USA.
3.  S. Das, P. Sudhagar, Y. S. Kang, and W. Choi, Synthesis, and Characterizations of Graphene; Carbon Nanomaterials for Advanced Energy Systems, Willey Interscience, Published Online on October 3, 2015.
2.  A. K. Bandyopadhyay, S. Das, and A. Biswas: Chapter 11: Quantum Breathers and Phonon Bound State in the Ferroelectric System, Computational and Experimental Chemistry Developments and Applications, Ed by: T. Chakraborty, M. J. Bucknum, and E. A. Castro, Apple Academic Press, NEW JERSEY, 2012.
1.  S. Das and W. Choi, Graphene Synthesis, Graphene: Synthesis and Applications; Series: Nanomaterials and their Applications, CRC Press, Taylor & Francis Group, Published on October 2011.

Selected Peer-Reviewed Journal Publications:

80. Sharma, U.; Karazhanov, S.; Alonso-Vante, N.; Das, S.; Metallic-phase of MoS2 as potential electro-catalyst for hydrogen production via water splitting: A brief review; Current Opinion in Electrochemistry (2022) Accepted.
79. Ling, J.; Karuppiah, C.; Das, S.; Singh, V.K.; Misnon, I. I.; Rahim, M. H. A.; Peng, S.; Yang, C.; and Jose, R.; Electrospun Quasi-Anisotropic Nickel-Cobalt-Manganese Oxide Nano-octahedron as Anode for Lithium-ion Battery, New Journal of Chemistry (2022) Accepted.
78. Sharma, U.; Karazhanov, S.; Jose, R.; Das, S.; Plasmonic hot-electron assisted phase-transformation in 2D-MoS2 for hydrogen evolution reaction: current status and future perspectives, Journal of Materials Chemistry A (2022) DOI: 10.1039/D1TA10918A.
77. Ghosh, S. K.; Das, S.; Bhattacharyya, S.; Terahertz Wave Conversion From Linear to Circular Polarization by Graphene Metasurface Featuring Ultrawideband Tunability, IEEE JOURNAL OF LIGHTWAVE TECHNOLOGY (2022) 10.1109/JLT.2022.3156640.
76. Ling, J.; Karuppiah, C.; Das, S.; Misnon, I. I.; Rahim, M. H.; Yang, C.; Jose, R.; Electrospun Ternary Composite Metal Oxide Fibers as an Anode for Lithium-ion Batteries, Frontiers in Materials, section Ceramics and Glass, (2022) 9, 815204, doi: 10.3389/fmats.2022.815204.
75. Ghosh, S. K.; Das, S.; Bhattacharyya, S.; Graphene-Based Metasurface for Tunable Absorption and Transmission Characteristics in the Near Mid-Infrared Region, IEEE Transactions on Antennas and Propagation (2021) DOI:10.1109/TAP.2022.3140904.
74. Ghosh, S. K.; Das, S.; Bhattacharyya, S.; Graphene-based dual functional metadevice in terahertz gap Applied Optics (2021) 60(34) 340001-01.
73. Akhter, S.;  Mohd Zain, N. K.;  Shalauddin, M.;  Singh, V. K.;  Misnon, I. I.;  Sharma, R. K.;  Das, S.;  Basirun, W. J.;  Johan, M. R.; Jose, R., Tri-metallic Co-Ni-Cu based metal-organic framework nanostructures for the detection of an anticancer drug nilutamide Sensors and Actuators A: Physical (2021), 325, 112711.
72. Singh, V.K.; Gupta, U.; Mukherjee, B.; Chattopadhyay, S.; Das, S.; MoS2 Nanosheets on MoNi4/MoO2 Nanorods for Hydrogen Evolution ACS App Nanomaterials (2021) 4, 1, 886–896 DOI: 10.1021/acsanm.0c03296.
71. Zain, N. K. M.; Misnon, I. I.; Karuppiah, C.; Das, S.; Ozoemena, K. I.; Yang, C-C.; Jose, R.; High Capacity and Rate Capability Binder-less Ternary Transition Metal-Organic Framework as Anode Material for Lithium-ion Battery, Electroanalysis, (2020) 32, 3180.
70. Ghosh, S. K.; Das, S.; Bhattacharyya, S.; Transmittive-type Triple-band Linear to Circular Polarization Conversion in THz Region using Graphene-Based Metasurface Optics Communications (2020) 480, 126480.
69. Bhattacharyya, R.; Singh, V. K.; Bhattacharyya, S.; Maiti, P.; Das, S.; Defect reconstructions in graphene for excellent broadband absorption properties with enhanced bandwidth Applied Surface Science, (2020) 537, 147840, 10.1016/j.apsusc.2020.147840.
68. Ray, S.; Bhattacharya, T. K.; Singh, V. K.; Deb, D.; Ghosh, S.; and Das, S.; Non-isothermal decomposition kinetics of nano-scale CaCO3 as a function of particle size variation Ceramic International (2020) doi.org/10.1016/j.ceramint.2020.08.198.
67. Ghosh, S. K.; Das, S.; and Bhattacharyya, S.; Graphene Based Metasurface with Near Unity Broadband Absorption in the Terahertz Gap, Int. J. of RF and Microwave Computer-Aided Engineering (2020) 30 (12) e22436  https://doi.org/10.1002/mmce.22436.
66. Daripa, S.; Singh, V. K.; Prakash, O.; Maiti, P.; Kuila, B.K.; Das, S.; Sulfonated graphene-modified electrodes for enhanced capacitive performance and improved electro-oxidation of hydrogen peroxide, Nano-Structures & Nano-Objects 24 (2020) 100531.
65. Samantaray, M. R.; Mondal, A.; Murugadoss, G.; Pitchaimuthu, S.; Das, S.; Bahru, R.; Mohamed, M. A.; Synergetic Effects of Hybrid Carbon Nanostructured Counter Electrodes for Dye-Sensitized Solar Cells: A Review, Materials (2020) 13, 2779; doi:10.3390/ma13122779.
64. Daripa, S.; Khawas, K.; Sharma, A.; Kumar, A.; Pal, B. N.; Das, S.; Jit, S.; Kuila, B. K.; Simple and direct synthetic route to a rod-coil conjugated block copolymer either from rod or coil block using a single bi-functional initiator, solvent dependent self-assembly and field effect mobility study, ACS Applied Polymer Materials (2020) 2, 1283-1293.
63. Bhattacharyya, R.; Prakash, O.; Roy, S.; Singh, A. P.; Bhattacharyya, T. K.; Maiti, P.; Bhattacharyya, S.; and Das, S.; Graphene oxide-ferrite hybrid framework as enhanced broadband absorption in gigahertz frequencies, (2019) Nature Scientific Reports, (2019) 9, 12111.
62. Das, S.; Kumar, C.; Kumar, R.; Srivastava, A.; Jit, S., Two-Dimensional MoS2 Based Photosensitive Al/MoS2/SiO2/Si/Ag MOS Capacitor. IEEE Photonics Technology Letters (2020) 1-1, DOI: 10.1109/LPT.2019.2957260.
61. Bose, A.; Ray, S.; Singh, V.K.; Banerjee, A.; Nayak, C.; Singha, A.; Bhattacharyya, A.; Chattopadhyay, D.; Das, S.; and Dasgupta; A. K.; Differential Graphene functions on two Photosynthetic Microbes; Advances in Natural Sciences: Nanoscience and Nanotechnology (2020) 11(1) 015004 (10pp).
60. Daripa, S.; Zaeem, S. M.; Kuila, b. K.; and Das, S.; Mn3O4 nanocluster-graphene hybrid for energy storage and electrochemical sensing application, Ionics (2020) 26, 2623–2631. doi.org/10.1007/s11581-019-03349-y.
59. Rawat, S. S.; Harsha, A. P.; Das, S.; Agarwal, P. D.; Effect of CuO and ZnO nano-additive on the tribological performance of paraffin oil-based lithium grease, Tribology Transactions (2019) Article in press doi.org/10.1080/10402004.2019.1664684.
58. Khawas, K.; Daripa, S.; Kumari, P.; Das, S.; Dey, R.K.; Kuila, B. K.;  Highly Water Soluble Rod-Coil Conjugated Block Copolymer for Efficient Humidity Sensor, Macromolecular Chemistry and Physics, (2019), 220, 1900013. https://doi.org/10.1002/macp.201900013.
57. Banerjee, A,; Chattyopadhyay, S.; Kundu, A.; Sharma, R. K.; Maiti, P.; Das, S.; Vertically aligned zinc oxide nanosheet for high-performance photocatalysis of water pollutants Ceramic International (2019) 45 (14) 16821-16828.
56. Daripa, S.; Khawas, K.;  Das, S.; Kuila, B. K.; Aligned proton conducting graphene sheets via block copolymer supramolecular assembly and their application for highly transparent moisture sensitive conductive coating, ChemistrySelect (2019) 4 (25) 7523-7531. 
55. Ghosh, S. K.; Yadav, V. S.;  Das, S.;  Bhattacharyya, S.; Tunable Graphene Based Metasurface for  Polarization-Independent Broadband Absorption in Lower Mid Infrared (MIR) Range IEEE Transactions on Electromagnetic Compatibility, (2019) DOI: 10.1109/TEMC.2019.2900757.
54. Mohd Zain, N. K.;  Vijayan, B. L.;  Misnon, I. I.;  Das, S.;  Karuppiah, C.;  Yang, C.-C.;  Yusoff, M. M.; Jose, R., Direct Growth of Triple Cation Metal–Organic Framework on a Metal Substrate for Electrochemical Energy Storage. ACS Industrial & Engineering Chemistry Research (2019) 58, 2, 665-674. DOI: 10.1021/acs.iecr.8b03898.
53. Bhattacharyya, R.; Roy, S.; Prakash, O.; Singh, A. P.; Bhattacharyya, T. K.; Maiti, P.; Bhattacharyya, S.; Das, S.; Mg0.5Zn0.5Fe2O4-polyurethane thin nanocomposite coating as broadband microwave absorber, Springer Nature Applied Sciences, (2019) 1, 38. doi.org/10.1007/s42452-018-0041-8.
52. Kuila, B. K.; Zaeem, S. M.; Daripa, S.; Kaushik, K.; Gupta, S. K.; and Das, S.; Mesoporous Mn3O4 coated reduced graphene oxide for high-performance supercapacitor applications. Materials Research Express (2019) 6 (1), 015037.
51. Bhattacharyya, S.; Yadav, V. S. ; Ghosh, S. K.; and Das, S.; Wideband Tunable Mid-infrared Cross-polarization Converter Using Monolayered Graphene-Based Metasurface over A Wide Angle of Incidence, IET Microwaves, Antennas & Propagation, (2018) DOI:  10.1049/iet-map.2018.5373.
50. Yadav, V. S.; Ghosh, S. K.; Bhattacharyya, S.; and Das, S.; Graphene-based metasurface for a tunable broadband terahertz cross-polarization converter over a wide angle of incidence Applied Optics, (2018) 57 8720-8726.
49. Kumar, S.; Maurya, I.C.; Prakash, O.; Srivastava, P.; Das, S.; and Maiti, P.; Functionalized Thermoplast Polyurethane as Hole Conductor for Quantum Dot Sensitized Solar Cell, ACS Applied Energy Materials, (2018) 1 (9), 4641–4650, DOI: 10.1021/acsaem.8b00783.
48. Nair, R. B.; Arora, H. S.; Mandal, P., Das, S.; Grewal, H.S.; High-Performance Microwave-Derived Multi-Principal Element Alloy Coatings for Tribological Application, Advanced Engineering Materials, (2018) doi.org/10.1002/adem.201800163.
47. Das, S.; Arora, H. S.; Mukherjee, S.; Das, S., Arora, H. S. & Mukherjee, S. Metallic Glass Nano-composite Thin Films for High-performance Functional Applications, Sp. Ed. Nanostructured Surfaces for Improved Functional Properties, Journal of Metals (2017), doi:10.1007/s11837-017-2365-z.
46. Jeong, JY.; Lee, KM.; Shrestha, R.; Horne, K.; Das, S.; Choi, W.; Kim, M.; Choi, TY.; Thermal conductivity measurement of few layer graphene film by a micropipette sensor with laser point heating source, Materials Research Express, 2016, 3, 055004.
45. Das, S.; Choudhary, K.; Chernatynskiy, A.; Yim, H.; Bandyopadhyay, A.; Mukherjee, S.; Spin-exchange interaction between transition metals and metalloids in soft ferromagnetic metallic glasses, Journal of Physics: Condensed Matter 2016 28 216003 (dx.doi.org/10.1088/0953-8984/28/21/216003).
44. Das, S.; Martinez, N.; Das, S.; Mishra, Rajiv S.; Grant, Glenn J.; Jana, S.; and Polikarpov, E.; Magnetic Properties of Friction Stir Processed Composite, Journal of Metals, 2016, DOI: 10.1007/s11837-016-1881-6.
43. Das, S.; Santos, R.; Arora, H.S.; Mridha, S.; Shepherd, N.D.; Mukherjee, S.;Electro-mechanical behavior of pulsed laser deposited platinum-based metallic glass thin films, Physica Status Solidi A, 2015, DOI: 10.1002/pssa.201532639.
42. Das, S.; Garrison, S.; Mukherjee, S., Bi-Functional Mechanism in Degradation of Toxic Water Pollutants by Catalytic Amorphous Metals. Advanced Engineering Materials 2015, DOI: 10.1002/adem.201500239. (Spotlighted as Wiley-VCH featured Article, July 2015)
40. Veligatla, M.; Das, S.; Lee, W.; Hwang, J.; Thumthan, O.; Hao, Y.; and Mukherjee, S.; Tuning the magnetic properties of Cobalt-based metallic glass nano-compositesFuturistic Nanomaterials and Composites Special Edition, Journal of Metals, 2015, 10.1007/s11837-015-1584-4.
39. Mridha, S.; Das, S.; Aouadi, S.; Mukherjee, S.; and Mishra, R. S.; Nanomechanical Behavior of CoCrFeMnNi High-Entropy Alloy. Journal of Metals, 2015, 67 (10),2296-2302.
38. Vabbina, P. K.; Choudhary, N.; Chowdhury, A.-A.; Sinha, R.; Karabiyik, M.; Das, S.; Choi, W.; Pala, N., Highly Sensitive Wide Bandwidth Photodetector Based on Internal Photoemission in CVD Grown P-Type MoS2/Graphene Schottky Junction. ACS Applied Materials & Interfaces 2015, DOI: 10.1021/acsami.5b00887.
37. Das, S.; Bandi, V.; Arora, H. S.; Veligatla, M.; Garrison, S.; D'Souza, F.; Mukherjee, S., Synergistic catalytic effect of iron metallic glass particles in direct blue dye degradation.Journal of Materials Research, Cambridge University Press 2015, 30 (08), 1121-1127.
36. Veligatla, M.; Katakam, S.; Das, S.; Dahotre, N.; Gopalan, R.; Prabhu, D.; ArvindhaBabu, D.; Choi-Yim, H.; Mukherjee, S., Effect of Iron on the Enhancement of Magnetic Properties for Cobalt-Based Soft Magnetic Metallic Glasses. Metallurgical and Materials Transactions A 2014, 1-5.
35. Das, S., Sudhagar, P.; Kang, Y. S.; Choi, W., Graphene synthesis and application for solar cells, Journal of Materials Research, Cambridge University Press(2014), 29, 299 - 319. DOI: 10.1557/jmr.2013.297.
34. Das, S.; Kim, M.; Lee, J.-w.; Choi, W., Synthesis, Properties, and Applications of 2-D Materials: A Comprehensive Review, Critical Reviews in Solid State and Materials Sciences 2014, 39, 231-252.
33. Das, S.; Lahiri, D.; Agarwal, A.; Choi, W., Interfacial bonding characteristics between graphene and dielectric substrates, Nanotechnology 2014, 25, 045707.
32. Devadoss, A.; Sudhagar, P.; Das, S.; Lee, S. Y.; Terashima, C.; Nakata, K.; Fujishima, A.; Choi, W.; Kang, Y. S.; Paik, U., Synergistic Metal–Metal Oxide Nanoparticles Supported Electrocatalytic Graphene for Improved Photo-electrochemical Glucose Oxidation, ACS Applied Materials & Interfaces 2014, 6, 4864-4871.
31. Choi, D.; Kuru, C.; Choi, C.; Noh, K.; Hong, S.-K.; Das, S.; Choi, W.; Jin, S., Nanopatterned Graphene Field Effect Transistor Fabricated Using Block Co-polymer Lithography, Materials Research Letters 2014, 1-9.
30. Vabbina, P. K.; Pala, N.; Das, S.; Choi, W.B.; Controlled Synthesis of ZnO Nanoflakes on Arbitrary Substrates at Ambient Conditions, Particle & Particle Systems Characterization, 2013, 1-5, DOI: 10.1002/ppsc.201300208.
29. Zhang, C.; Chaudhary, U.; Das, S.; Godavarty, A.; and Agarwal, A.; Effect of Porosity on Photocatalytic Activity of Plasma Sprayed TiO2 Coating, The Journal of Thermal Spray Technology 2013, 22, 1193-1200. (Impact Factor: 1.491)
28. Das, S.; Lahiri, D.; Lee, D.-Y.; Agarwal, A.; Choi, W., Measurements of the adhesion energy of graphene to metallic substrates, Carbon 2013, 59, 121–129.
27. Das, S.; Sudhagar, P.; Ito, E.; Lee, D.-y.; Nagarajan, S.; Lee, S. Y.; Kang, Y. S.; Choi, W., Effect of HNO3 functionalization on large scale graphene for enhanced tri-iodide reduction in dye-sensitized solar cells, Journal of Materials Chemistry 2012, 22, 20490-20497.
26. Das, S.; Sudhagar, P.; Nagarajan, S.; Ito, E.; Lee, S. Y.; Kang, Y. S.; Choi, W., Synthesis of graphene-CoS electro-catalytic electrodes for dye sensitized solar cells, Carbon 2012, 50, 4815-4821.
25. Lahiri, D.; Das, S.; Choi, W.; Agarwal, A., Unfolding the Damping Behavior of Multilayer Graphene Membrane in the Low-Frequency Regime. ACS Nano 2012, 6, 3992-4000.
24. Das, S.; Sudhagar, P.; Verma, V.; Song, D.; Ito, E.; Lee, S. Y.; Kang, Y. S.; Choi, W., Amplifying Charge-Transfer Characteristics of Graphene for Tri-iodide Reduction in Dye-Sensitized Solar Cells. Advanced Functional Materials 2011, 21, 3729-3736.
23. Das, S.; Seelaboyina, R.; Verma, V.; Lahiri, I.; Hwang, J. Y.; Banerjee, R.; Choi, W., Synthesis and characterization of self-organized multilayered graphene-carbon nanotube hybrid films, Journal of Materials Chemistry 2011, 21.
22. Lahiri, I.; Das, S.; Kang, C.; Choi, W., Application of carbon nanostructures-Energy to electronics. Journal of Metals 2011, 63, 70-76.
21. Verma, V. P.; Das, S.; Lahiri, I.; Choi, W., Large-area graphene on polymer film for flexible and transparent anode in field emission device, Applied Physics Letters 2010, 96, 203108-1-3.
20. Verma, V. P.; Das, S.; Hwang, S.; Choi, H.; Jeon, M.; Choi, W., Nitric oxide gas sensing at room temperature by functionalized single zinc oxide nanowire, Materials Science and Engineering: B 2010, 171, 45-49.
19. Roy, J.; Bandyopadhyay, N.; Das, S.; Maitra, S., Role of V2O5 on the formation of chemical mullite from aluminosilicate precursor, Ceramics International 2010, 36, 1603–1608.
18. Saha, D.; Das, S.; Sengupta, K., Development of commercial nanoporous trace moisture sensor following sol-gel thin film technique, Sensors and Actuators B-Chemical 2008, 128, 383–387.
17. Maitra, S.; Das, S.; Ray, R.; Mitra, N. K., Role of some transition metal cations on the kinetics of thermal dehydration of synthetic zeolites, Ceramics International 2008, 34, 485–490.
16. Das, S.; Chakraborty, S.; Parkash, O.; Kumar, D.; Bandyopadhyay, S.; SK Samudrala, SK.; Sen, A.; Maiti, HS.;  Vanadium doped tin dioxide as a novel sulfur dioxide sensor Talanta 2008, 75, 2 385-389.
15. Seal, A.; Das, S.; Mazumder, R.; Sen, A., Low-frequency dispersion in low-temperature fast-fired PZT. Journal of Physics D-Applied Physics 2007, 40, 7560.
14. Maitra, S.; Pal, A. J.; Bandyopadhyay, N.; Das, S.; Pal, J., Use of genetic algorithm to determine the kinetic model of solid-state reactions. Journal of the American Ceramic Society 2007, 90, 1611–1614.
13. Maitra, S.; Das, S.; Sen, A., The role of TiO2 in the densification of low cement Al2O3-MgO spinel castable, Ceramics International 2007, 33, 239–243.
12. Maitra, S.; Bandyopadhyay, N.; Das, S.; Pal, A. J.; Pramanik, M. J., Non-isothermal decomposition kinetics of alkaline earth metal carbonates, Journal of the American Ceramic Society 2007, 90, 1299–1303.
11. Maitra, S.; Das, S.; Das, A. K.;Basumajumdar, A., Effect of heat treatment on properties of steam cured fly ash-lime compacts. Bulletin of Materials Science 2005, 28, 697-702.
10. Maitra, S.; Ahmad, F.; Das, A. K.; Dutta, Das, S.; B. K.; Effect of curing conditions and ionic additives on properties of fly ash-lime compacts, Bulletin of Materials Science 2010, 33, 185-190.
9. Das, S., Chakraborty, S.,  Parkash, O., Kumar, D., Bandyopadhyay, S.,  Samudrala, S.K.,  Sen, A., Maiti, H.S., Vanadium doped tin dioxide as a novel sulfur dioxide sensor, Talanta 75 (2008) 385-389.  
8. Maitra, S; and Das, S.; Effect of TiO2 on the properties of ultra-low cement Al2O3-MgO spinel castable, Refractory and Industrial Ceramics 2006, 47, 63-67.
7. Roy, J.; Bandyopadhyay, N.; Das, S.; and Maitra, S.; Studies on the Formation of Mullite from Diphasic Al2O3-SiO2 Gel by Fourier Transform Infrared SpectroscopyIran. J. Chem. Chem. Eng. 30, 1, (2011) 65-71.
6. Roy, J., Bandyopadhyay, N., Das, S., Maitra, S., Effect of Synthetic Fe2O3 on the Properties of Mullite Ceramics Derived from Di-phasic Al2O3-SiO2 Gel J Aust. Ceram. Soc. 46 (2010) 15-22.
5. Roy, J.; Bandyopadhyay, N.; Das, S.; and Maitra, S.; Effect of copper ions on mullite formation from alumino-silicate precursor, Ceramic Sillikaty, 2010, 128-132.
4. Roy, J.; Bandyopadhyay, N.; Das, S.; and Maitra, S.; Role of Cr2O3 on the mullitization of diphasic Al2O3-SiO2 gelCerâmica56 (2010) 273-278.
3. Roy, J.; Bandyopadhyay, N.; Das, S.; and Maitra, S.; Effect of CoO on the Formation of Mullite Ceramics from Diphasic Al2O3-SiO2 Gel Journal of Engineering Science and Technology Review 3 (2010) 136-141.
2. Maitra, S., Das, S., Sen, A., Bandyopadhyay, N., Das, K., Patra, S., Ghosh, B. Synthesis of mullite-SiC composites and its characterization, J Aust. Ceram. Soc., 42 (2006) 22-26.
1. Maitra, S., Chatterjee, R., Das, S., Rahaman, A.; A new approach for the synthesis of ceria stabilized zirconia-mullite composites and their characterization, J Aust. Ceram. Soc. 42 (2006) 71-75.

 
Conference Proceedings:

18. S. K. Ghosh, S. Das, and S. Bhattacharyya, Graphene-Metal Hybrid Metasurface for Tunable Bandpass Filter in Terahertz Region, 2021 IEEE Indian Conference on Antennas and Propagation (InCAP), 13-16 December 2021 | Malaviya National Institute of Technology, Jaipur.
17. S. K. Ghosh, S. Bhattacharyya, and S. Das, A Graphene Based Metasurface for Transmittive-type Linear to Circular Polarization Converter with Tunable Characteristics, URSI GASS 2021,  28th August to 04th September 2021, Rome, Italy.
16. S. K. Ghosh, S. Bhattacharyya, and S. Das, “Graphene-based metasurface for wideband linear to circular polarization conversion,” in 2020 URSI Regional Conference on Radio Science (URSI-RCRS 2020), Varanasi, India, 12-14 February, IEEE Xplore 2020, DOI: 10.23919/URSIRCRS49211.2020.9113624.
15. R. Bhattacharyya, Jyoti, A. Gupta, O. Prakash, S. Roy, T. K. Bhattacharyya, P. Maiti, S. Bhattacharyya, and S. Das, In-situ synthesis of (Mg0.5Zn0.5)Fe2O4-graphene oxide nanocomposite for broadband microwave absorption in GHz frequency range, 2019 URSI Asia-Pacific Radio Science Conference (AP-RASC), 9-15 March 2019, DOI: 10.23919/URSIAP-RASC.2019.8738396.
14. V. S. Yadav, S. K. Ghosh, S. Bhattacharya, S. Das, In-situ synthesis of (Mg0.5Zn0.5)Fe2O4-graphene oxide nanocomposite for broadband microwave absorption in GHz frequency range2019 URSI Asia Pacific Radio Science Conference (AP-RASC 2019), New Delhi, India, 9-15 March, 2019.
13. S. K. Ghosh, S. Das, and S. Bhattacharyya,  A Graphene Based Broadband Metasurface Absorber in the Terahertz Region, 2019 URSI Asia Pacific Radio Science Conference (AP-RASC 2019), New Delhi, India, 9-15 March, 2019.
12. S. K. Ghosh, V. S. Yadav, S. Bhattacharyya, and S. Das, “A Graphene Based Bandwidth Enhanced Metamaterial Absorber using Circular Ring,” accepted for presentation in IEEE International Symposium on Antennas and Propagation and USNC/URSI National Radio Science Meeting, 8-13 July, 2018, Boston, USA.
11. Graphene Based Metasurface with Tunable Dual Band Mid-Infrared Cross Polarization Converter, IEEE ATMS conference, (2018) IEEE Xplore.
10. R. Bhattacharyya, D. K. Jha, O. Prakash, A. P. Singh, S. Bhattacharyya, and S. Das, Ultra-thin Ferrite Nanocomposite Coating as Broadband Microwave Absorber, 6th biennial IEEE Applied Electromagnetics Conference (AEMC-2017), 2017,IEEE Xplore.
9. Das et al.; Enhancement of Catalytic Effect of Iron Metallic Glass Particles in AZO Dye Degradation. Texas Journal of Microscopy, 2015, 46 (1) 10.
8. Das et al.; Engineering carbon nanomaterials for future applications: energy and biosensor. Proc. SPIE 8031, Micro- and Nanotechnology Sensors, Systems, and Applications III 2011, 80311K-80311K.
7. Verma, V.P.; Das et al.;Large Area Graphene on Polymer Films for Transparent and Flexible Field Emission Device: MRS Proceedings 2011 1283: mrsf10-1283-b08-03 (7 pages) DOI: 10.1557/opl.2011.801.
6. P.K. Vabbina, Das et al., Synthesis of Crystalline ZnO Nanoflakes on Graphene and Other Substrates at Ambient Conditions, MRS Symposium Proceeding 2012 1449: DOI: http://dx.doi.org/10.1557/opl.2012.1041.
5. Hadjikhani, A.; Chen, J.; Das et al.; Raman Spectroscopy of Graphene and Plasma Treated Graphene under High Pressure. Proceedings of TMS, USA John Wiley & Sons, Inc.: 2012; pp 75-79.
4. Karabiyik, M.; Al-Amin, C.; Das et al.; Sub-wavelength, multimode, tunable plasmonic terahertz lenses and detectors. 2012, 83630L-83630L. Advanced Applications in Industry and Defense, USA, 83630L (May 1, 2012); doi:10.1117/12.919372.
3. Choi, W.; Lahiri, I.; Das et al., Carbon Nanomaterials - The Route toward Applications in Energy, 18th International Conference on composite materials, Jeju, South Korea (2011).
2. Das et al.; “Thermodynamics and Kinetics of Nano-Scale Grain Growth” Proceedings of International Conference on Recent Trends in Nanoscience& Technology, December 7-9, 2006, Jadavpur University, Kolkata, India.
1. Das, et al.; “The Importance of Population Balance on the Size Distribution Effects of Precipitated Ceramic Powder Precursors” Proceedings of International Conference on Recent Trends in Nanoscience& Technology, December 7-9, 2006, Jadavpur University, Kolkata, India.
 

Invited Talk:
37. Keynote: Two-dimensional hybrid materials for functional applications: New archetypes of nano-scale engineering, IEEE Conference on IoT for Rural Health Care 2021, (CIRH-2021), December 16-18, 2021, VFSTR Deemed to be University, Guntur, A.P.
36. Phase transformations in 2D MoS2 for electrocatalytic hydrogen generation, DESIGN FABRICATION AND APPLICATIONS OF SOLAR ENERGY CONVERSION DEVICES, COOL LONGBOAT 2nd- Winter School 2021, 1-3 December 2021, Norway.
35. Green Hydrogen Production: A New Carbon-Free Chemical Pathway to Next Industrial Revolution, 1st International Conference on Hydrogen Energy – Policies, Infrastructure Development and Challenges, 24 - 25 November 2021, Scope Complex, Lodi Road, New Delhi, Central Board of Irrigation and Power, Govt. of India.
34. Electro Catalytic Hydrogen Generation: Challenges and Perspectives in Global Scenario – 1st International Conference on Hydrogen Energy – Policies, Infrastructure Development and Challenges, 24 - 25 November 2021, Scope Complex, Lodi Road, New Delhi, Central Board of Irrigation and Power, Govt. of India.
33. AICTE ATAL FACULTY DEVELOPMENT PROGRAM on “Novel Materials” on Emerging functional materials and nanomaterials for electronic, optoelectronic and energy devices, Rajkiya Engineering College Banda, July 10th 2021.
32. International Online School on "Materials and processes for production of solar hydrogen"; Pt-free electrodes for applications in electrochemical hydrogen generation, Institute for Energy Technology, University of Stavanger, and University of Oslo, Norway, May 5th – May 7th 2021.
31. International Online Conference on Nano Materials (ICN 2021); “Emerging functional nanomaterials for electronic, optoelectronic and electromagnetic devices”, School of Energy Materials (SEM), Mahatma Gandhi University, April 09th -11th 2021.
30. “World Nano Congress on Advanced Science and Technology” (WNCST-2021)”, “Emerging functional nanomaterials for electronic, optoelectronic, and energy devices”, Centre for Nanotechnology Research, Vellore Institute of Technology, Vellore TN, from March 8th -12th, 2021.
29. AICTE Training And Learning (ATAL) Academy sponsored five days Online Faculty Development Programme;Two-dimensional heterostructured materials for functional applications: New archetypes of nano-scale engineering" Rajkiya Engineering College Banda, September 22nd  2020.
28. Foundation Course on "Materials Synthesis and characterizations, FAC2020Synthesis and Processing of Advanced Materials and Nanomaterials: Part II, 08th September 2020
27. Foundation Course on "Materials Synthesis and characterizations, FAC2020”, Synthesis and Processing of Advanced Materials and Nanomaterials: Part-I, 07th September 2020.
26. Workshop on “Recent Advances in Materials Science and Technology”, "Advanced Functional Nanostructures for High-performance Electronics and Energy Devices"; Department of Physics & Nanotechnology, SRM Institute of Science and Technology, Kattankulathur, Chennai, June 8-12, 2020.
25. Characterization Techniques for Developing Ceramic Materials, National Workshop on “Present and Future challenges of Advanced Ceramics & Refractories” University college of Engineering and technology, Bikaner, October 17, 2019.
24. Advancement of functional nanomaterials for next-generation electronic and energy devices, National Workshop on “Present and Future challenges of Advanced Ceramics & Refractories” University college of Engineering and technology, Bikaner, October 18, 2019.
23. Functional nanomaterials for optoelectronics and energy harvesting applications, Faculty Development Program on Futuristic electronics devices and applications, University Institute of Engineering & Technology, Kurukshetra University, Kurukshetra, Haryana, August 29th, 2019.
22. Two-dimensional nanomaterials for electronics and optoelectronics applications, Faculty Development Program on Futuristic electronics devices and applications, University Institute of Engineering & Technology, Kurukshetra University, Kurukshetra, Haryana, August 30th, 2019.
21. Emerging functional nanomaterials for electronic and energy devices, International Workshop on Energy Technologies, September 24-26, 2019 at Manonmaniam Sundaranar University, Tirunelveli, India.
20. "Scanning probe Microscopy-A technique for nanoscale surface characterizations" India-UK Joint Hands-on Training Program for Nanomaterials Characterization and Device Fabrication, Global Nano Research Network, at K.S.R. Center for Nanoscience and Technology, 19th to 21st September 2019 at Tiruchengode, Tamilnadu, India.   
19. In-situ synthesis of (Mg0.5Zn0.5)Fe2O4-graphene oxide nanocomposite for broadband microwave absorption in GHz frequency range; 2019 URSI Asia Pacific Radio Science Conference (AP-RASC 2019), New Delhi, India, 9-15 March, 2019.
18.Magnetic nanoparticle dispersed thermoplastic polyurethane coatings as radar absorbing material”, India-UK Second International Conference on Advanced Nanomaterials for Energy, Environment and Healthcare Applications (ANEH-2019), 04-06, February 2019, Tiruchirappalli, India.
17.Two Dimensional Functional Materials for Energy and Environmental Applications”,  India-UK Second International Conference on Advanced Nanomaterials for Energy, Environment and Healthcare Applications (ANEH-2019), 04-06, February 2019, Tiruchirappalli, India.
16. Keynote lecture at UK-INDIA Workshop on Integrated Renewables for Autonomous Power Supply; August 1st - 2nd 2016 at the University of Exeter, Cornwell, Exeter, UK.
15. Keynote lecture on "Characterizations of Two Dimensional Nanomaterials Using Raman Spectroscopy and Scanning Probe Microscopy" in National Seminar on Instrumentation and Characterization Techniques (NSICT-2016) on 22th - 23th December 2016 at Banasthali University, Rajasthan, India.
14. Plenary lecture: “Synergistic Nanostructures for Various Functional Applications in Electronics and Energy” at International Conference on Nanoscience and Materials during February 15-16, 2017 at Nesamony Memorial Christian College, Kanyakumari, Tamilnadu, India.
13. “TWO DIMENSIONAL FUNCTIONAL NANOMATERIALS FOR ELECTRONICS AND ENERGY DEVICES” at Fourth International Conference on Nanostructured Materials and Nanocomposites (ICNM 2017) 10-12 February 2017 at Mahatma Gandhi University, Kottayam, Kerala, India.
12. “2D-Functional Nanomaterials for Electronic and Energy Applications” at the international conference on “NANOTECHNOLOGY: SCIENCE AND APPLICATION IN ADVANCED MATERIALS AND BEYOND, December 19th- 22nd 2016 at the Department of Chemistry, Bananas Hindu University.
11. “Scanning probe Techniques and its Applications on Nano Structure Characterizations” on 26th October 2016 at the Department of Physics and Astrophysics, University of Delhi.
10. “Two Dimensional Graphene: A wonder material of the decade” on 27th October 2016 at the Department of Physics and Astrophysics, University of Delhi.
9. FUNCTIONAL NANOMATERIALS FOR ELECTRONICS AND ENERGY APPLICATIONS, NSNN 2017 on 17-18 March 2017at Haldia Institute of Technology.
8. “Development of nanoparticles and characterization”; Materials Tribology: Fundamentals and Recent Advances”, 23-29 March 2017 at Department of Mechanical Engineering, IIT (BHU), Varanasi.
7. “Nanomaterialsfor Electronics and Energy”, KERAMOS’ 2016, on March 12th, 2016, at the Department of Ceramic Engineering, IIT (BHU). 
6. Invited talk: August21st 2014: Indian Institute of Technology, Bombay, India.
5. Invited talk: August 8th 2014: Indian Institute of Technology, Varanasi, India.
4. Invited talk:June 30th 2012: Institute of Technology- BHU, India.
3. Invited talk:Feb 6th 2011: West Bengal University of Technology, Kolkata, India.
2. Invited talk: 28th July 2011: Center for next-generation dye sensitized solar cells, Energy Engineering Department, Hanyang University, Seoul, South-Korea.
1. Invited talk: July 21st 2009: Department of Chemical Technology, Hanyang University, Seoul, South Korea.

Presentations:
Selected Presentations at National/International Conferences:

52. U. Sharma and S. Das; Plasmon-derived phase transformation in two dimensional MoS2 for improving electrocatalytic activity, DESIGN FABRICATION AND APPLICATIONS OF SOLAR ENERGY CONVERSION DEVICES, COOL LONGBOAT 2nd- Winter School 2021, 1-3 December 2021.
51. V. K. Singh, S. Das; Synergistic hybrid electrocatalysts for high-performance hydrogen evaluation reaction via water-splitting, DESIGN FABRICATION AND APPLICATIONS OF SOLAR ENERGY CONVERSION DEVICES, COOL LONGBOAT 2nd- Winter School 2021, 1-3 December 2021.
50. U. Sharma, S. Das; Development of Large-scale Two-dimensional MoS2 for Green Hydrogen Production, – 1st International Conference on Hydrogen Energy – Policies, Infrastructure Development and Challenges, 24 - 25 November 2021, Scope Complex, Lodi Road, New Delhi, Central Board of Irrigation and Power, Govt. of India.
49. V. K. Singh, S. Das; Nano-scale electro catalysts for high-performance hydrogen evaluation reaction via water-splitting, – 1st International Conference on Hydrogen Energy – Policies, Infrastructure Development and Challenges, 24 - 25 November 2021, Scope Complex, Lodi Road, New Delhi, Central Board of Irrigation and Power, Govt. of India.
48. S. K. Ghosh, S. Bhattacharyya, and S. Das, “Graphene-based metasurface for wideband linear to circular polarization conversion,” accepted for presentation in 2020 URSI Regional Conference on Radio Science (URSI-RCRS 2020), Varanasi, India, 12-14 February, 2020.
47. S. K. Ghosh, S. Bhattacharyya, and S. Das, “Broadband Graphene Based Reflective Cross Polarization Converter Metasurface Design with Unity Efficiency in the Lower Terahertz Gap,” in IEEE International Microwave & RF Conference (IMaRC 2019), Mumbai, India, 13-15 December, 2019.
46. Das et al., In-situ synthesis of (Mg0.5Zn0.5)Fe2O4-graphene oxide nanocomposite for broadband microwave absorption in GHz frequency range,  2019 URSI Asia Pacific Radio Science Conference (AP-RASC 2019), New Delhi, India, 9-15 March, 2019.
45. Das et al., “A Graphene Based Broadband Metasurface Absorber in the Terahertz Region,” 2019 URSI Asia Pacific Radio Science Conference (AP-RASC 2019), New Delhi, India, 9-15 March, 2019.
44. Das et al.,   Synthesis and Application of Low Cost 1D and mesoporousTiO2Photoanode in Dye-Sensitized Solar Cells; International Conference on Sustainable Energy and Environment – ICSEE’19, Hindustan Institute of Technology and Science, Padur, Tamil Nadu, India, February 21st & 22nd, 2019.
43. Das et al., Two dimensional MoS2 Quantum dots: Synthesis, Properties, and Applications; India-UK Second International Conference onAdvanced Nanomaterials for Energy, Environment and Healthcare Applications (ANEH-2019), 04-06, February 2019, Tiruchirappalli, India.
42. Das et al.,Electron Transport and Recombination in Core-Shell Structure Photoanode for Dye-Sensitized Solar Cells; India-UK Second International Conference on Advanced Nanomaterials for Energy, Environment and Healthcare Applications (ANEH-2019), 04-06, February 2019, Tiruchirappalli, India.
41. Das et al., Two Dimensional ZnO Nanosheet: Controlled Synthesis for Bio-sensing; International Conference on Advanced Nanomaterials for Energy, Environment and Healthcare Applications (ANEH-2019), 04-06, February 2019, Tiruchirappalli, India.
40. Das et al., Magnetic nanoparticle dispersed thermoplastic polyurethane coatings as radar absorbing material, International Conference onAdvanced Nanomaterials for Energy, Environment and Healthcare Applications (ANEH-2019), 04-06, February 2019, Tiruchirappalli, India.
39. Das et al., Chemical Vapor Deposited Two Dimensional Seamless MoS2 for Large-Area Optoelectronic Devices; International Conference on Advanced Nanomaterials for Energy, Environment and Healthcare Applications (ANEH-2019), 04-06, February 2019, Tiruchirappalli, India.
38. Das et al., Development of Graphene Nanocomposites based Polymeric Scaffold for Application in Water Purifications; International Conference on Advanced Nanomaterials for Energy, Environment and Healthcare Applications (ANEH-2019), 04-06, February 2019, Tiruchirappalli, India.
37. Das et al., “A Graphene Based Metasurface with Wideband Absorption in the Lower Mid Infrared Region,” in IEEE International Microwave & RF Conference (IMaRC 2018), Kolkata, India, 28-30 November, 2018.
36. Das et al.,; Highly Efficient rGO nanocomposite based hybrid electrocatalyst forHydrogen Evolution Reaction; 3rd NATIONAL CONFERENCE ON MATERIALS FOR ENERGY CONVERSION AND STORAGE (MECS-2018) from 18-20 October 2018 at IIT (BHU), Varanasi.
35. Das et al.,; Room temperature synthesis of 2-dimensional ZnO nanosheets with highly tuneable catalytic properties andpreparing a coating for photo-catalytic dye degradation; International Conference on Advanced Nanomaterials for Energy, Environment and Healthcare Applications (ANEH-2018), 31st August to 01st September 2018, K. S. R Institutions, Tamilnadu, India.
34. Das et al., “A Graphene Based Bandwidth Enhanced Metamaterial Absorber using Circular Ring,” oral presentation, IEEE International Symposium on Antennas and Propagation and USNC/URSI National Radio Science Meeting, 8-13 July, 2018, Boston, USA.
33. Das et al.,; Synthesizing Camellia sinensis Bio-surfactant assisted CdS Quantum Dotsfor Biomedical Applications, Fourth International Conference on Advanced Complex Inorganic Nanomaterials, 16th-20th July 2018, Namur, Belgium.
32. Das et al., Graphene Based Metasurface with Tunable Dual Band Mid-Infrared Cross Polarization Converter, Oral Presentation, IEEE ATMS conference, (2018) 5th to 7th February, Pune, Maharashtra, India.
31. Das et al., Ultra-thin Ferrite Nanocomposite Coating as Broadband Microwave Absorber, 6th biennial IEEE Applied Electromagnetics Conference (AEMC-2017), 2017, Oral Presentation, December 19-22, 2017 at MIT,Maharashtra, India.
30. Das et al., High performance nanocomposites based on Ni0.5Mg0.5Fe2O4-Ba0.75Sr0.25TiO3 and their electromagnetic properties, accepted in International Conference on "Advances in Biological Systems and Materials Science in NanoWorld" to be held on 19 - 23 February 2017 Department of Physics, IIT (BHU) Varanasi, INDIA.
29. Das et al., Saving the Environment from Toxic Chemicals Using Amorphous Metals, TMS 2016 145th ANNUAL MEETING & EXHIBITION February 14 – 18, 2016 • Nashville, Tennessee, USA.
28. Das et al., Tailoring the Magnetic Properties and Mechanical Behavior of Cobalt-Iron Metallic Glasses, TMS 2016 145th ANNUAL MEETING & EXHIBITION February 14 – 18, 2016 Nashville, Tennessee, USA.
27. Das et al. Nano-crystallization induced magnetic transitions in soft-ferromagnetic metallic glass, Oral Presentation, MRS Fall Meeting 2015, Nov 29-Dec 4, Boston, USA.
26. Das et al. Nano-mechanical and Electrical Characteristics of Amorphous-Crystalline Interface Dominated Metallic Thin-Films, MRS Fall Meeting 2015, Nov 29-Dec 4, Boston, USA.
25. Das et al. Nano-crystallization induced magnetic transitions in soft-ferromagnetic metallic glass, Oral Presentation, MRS Fall Meeting 2015, Nov 29-Dec 4, Boston, USA.
24. Das et al. Nano-mechanical and Electrical Characteristics of Amorphous-Crystalline Interface Dominated Metallic Thin-Films, poster presentation,MRS Fall Meeting 2015, Nov 29-Dec 4, Boston, USA.
23. Das et al. Enhancement of Catalytic Effect of Iron Metallic Glass Particles in AZO Dye Degradation, Presented in the Texas Society of Microscopy, 50th Anniversary Meeting, 19-21 February, 2015, Austin, Texas, USA.
22. Das et al.; Excellent Mechanical and Magnetic Properties of Cobalt-Iron Metallic Glasses, poster presentation in 2015 TMS Annual Meeting & Exhibition, USA.
21. Das et al.; Measurement of Graphene-substrates adhesion energy using nano-scratch study, oral presentation in Tech Connect World Innovation Conference & Expo, Nanotech 2014, June 15-18, 2014 Washington DC, USA.
20. Das et al.; Measurement of graphene substrates adhesion energy using nano-scratch study, poster presentation in 2013 MRS Fall Meeting, December 01 - 06, Boston, USA.
19. Das et al.; Covalent functionalization of large scale graphene for enhancing tri-iodide reduction in dye-sensitized solar cells, poster presentation in 2013 MRS Fall Meeting, December 01 - 06, Boston, USA.
18. Das et al.; Nanomaterials for high efficiency electronics and energy, poster presentation in SAMPE DFW: 2013 Technical Symposium &Materials Expo April 11, 2013, Dallas, USA.
17. Das et al.; Flexible dye-sensitized solar cells with ZnO nanoparticles grown by Sonochemistry over Graphene/PET substrates", Mater. Res. Soc. Symp. 2013 spring, USA.
16. Das et al.; Large Scale graphene-CoS hybrid electro-catalytic electrodes for dye sensitized solar cells, poster presentation in 2012 Materials Research Society Fall Meeting, November 25 - 30, Boston USA. (Finalistof Outstanding Poster Award, MRS USA 2012).
15. Das et al.; Improving Charge Transfer Characteristic of Graphene for Tri-iodide Reduction in Dye-Sensitized Solar Cells,poster presentation inThe Minerals, Metals and Materials (TMS) Society, USA, March 11-15, 2012 Orlando, Florida, USA
14. Das et al.; Enhancing Charge Transfer Efficiency of Large Scale Graphene for Tri-iodide Reduction in Dye-Sensitized Solar Cells, poster presentation in Materials Challenges in Alternative and Renewable Energy, The American Ceramic Society Conference, February 26th to March 1st Clearwater, Florida, USA. (Winner of third prize in student competition).
13. Das et al.; Enhancement of Charge Transfer Efficiency of Large Scale Graphene for Tri-iodide Reduction in Dye-Sensitized Solar Cells, poster presentation in 2012 FIU Scholarly Forum on February 27 -28, at Florida International University, Miami, USA. (Winner of second prize in student competition).
12. Das et al.; Amplifying Charge Transfer Characteristic of Graphene in Dye-Sensitized Solar, Oral presentation in 2011 Materials Research Society Fall Meeting, Nov 28-Dec 2 , Boston, USA.
11. Das et al.; Graphene for Large Scale Flexible Transparent Conducting Nanoelectronics and Bio-Devices, Poster presentation in Second Annual Retreat of the Biomedical Nanoscience Initiative of the University of Miami (BioNIUM 2010) - December 9-10, 2010, Miami, Florida, USA.
10. Das et al.; High Efficient Dye-sensitized Solar Cell Based on Morphology Controlled Carbon Nanotube Electrode: Oral presentation in Nanotech 2009 and Clean Technology 2009 May 3-7 2009 in Houston, Texas, USA.
9. Das et al.; Graphene and Carbon Nanotube hybrid structure and Its Applications in Flexible Electronics Devices, poster presentation inInternational Conference on IEEE Nano Korea, 26-28 Aug 2011, Seoul, South Korea.
8. Das et al.; Enhancement of Charge Transfer Efficiency of Large Scale Graphene for Tri-iodide Reduction in Dye-Sensitized Solar Cells, poster presentation in NANO Florida, Sept 30-Oct 1st 2011, Miami, Florida, USA.
7. Das et al.,; Carbon Nanostructure Based Electrodes for High Efficiency Dye Sensitize Solar Cell, FIU First Energy Workshop, March 12, 2010, Miami, FL, USA.
6. Das et al.; Large Area Graphene on Polymer Films for Transparent and Flexible Field Emission Device 2010, oral presentation in Materials Research Society Fall Meeting, 29-3rd December 2010,  Boston, USA.
5. Das et al.; Large-area Graphene on Polymer Film for Transparent and Flexible Electrodes, oral presentation in Florida Energy System Consortium 2010 (FESC) September 28-29 2010, Orlando, FL, USA.
4. Das et al.: Carbon Nanotubes for Multifunctional Electronics: August 26-28 2009, oral presentation in Nano Korea 2009, Kintex, Seoul, South Korea.
3. Das et al.; Zinc oxide nanostructure devices: effect of surface cleaning by UV radiation: 2009 The Minerals, Metals & Materials Society Annual Meeting & Exhibition Feb 15-19 2009, San Francisco, USA.
2. Das et al.; Large-area Graphene on Polymer Film for Transparent and Flexible Electrodes, Florida Energy System Consortium 2010 (FESC) September 28-29 2010, Orlando, FL, USA.
1. Das et al.; Carbon Nanotubes for Multifunctional Electronics: August 26-28 2009, Nano Korea 2009, Kintex, Seoul, South Korea.
 

Awards & Achievements:

  • EPDC Award Committee, American Ceramic Society (2022-2026) 
  • Fellow, Indian Chemical Society,
  • MRSC, Royal Society of Chemistry, UK
  • Honored with IEEE Senior Member Fellow as top 5% achiever among the all IEEE society members, January 2018.
  • Honored as one of the top 1 per cent of peer reviewers in the field of Physics, Publons, September 2017, UK London.
  • Honored as one of the top 1 per cent of peer reviewers in the field of Materials Science, Publons, September 2017, UK London.
  • Invited as session chair for the session “Materials for Energy Devices” at European Advanced Materials Congress 2017, 22nd -24th August 2017 at Stockholm, Sweden.
  • Received Prestigious “Early Career Award” form “Science and Engineering Research board, Department of Science & Technology, Government of India, December 2016.
  • Invited as a Keynote speaker in the UK-INDIA Workshop on Integrated Renewables for Autonomous Power Supply at The University of Exeter, Cornwell, Exeter, UK, August 2016.
  • Achieved recognition as “Country’s Most Accomplished Professional” and Enlisted my biography in Who's Who in America 2016, 70th Platinum Edition, American achievement of highest merit.
  • My PhD Thesis is one of ProQuest’s Most Accessed (Top ten) Dissertations and Theses out of 2 million online documents (Overall Rank 9), 2015-2016.
  • Wiley-VCH has spotlighted my recent research article on amorphous metal particles for environmental protectionin NEWS of July 2015.
  • One of my recent research on “Degradation of Toxic Water Pollutants by Catalytic Amorphous Metals” was highlighted in fall 2015 Advanced Materials Industrial Consortium, University of Wisconsin-Madison newsletters and in the NEWS of "Technological Watch", European Union’s Seventh Framework Programme for Research, technological development and demonstration.
  • My recent research work on "Saving the Environment from Toxic Chemicals using Amorphous Metals" was awarded for consecutive First prize, Second prize, and Third Prize at the 6th North Texas Inter-University Materials and Engineering Symposium 2015, Federation of North Texas Area Universities-Graduate Student Research Symposium 2015, and Engineering Category-University of North Texas, Graduate Exhibition 2015, respectively.
  • Winner of MRS Outstanding Poster Award 2013, MRS, USA at the fall meeting 2013, Boston, USA.
  • Finalist and nominated for the Outstanding poster Award, MRS, USAat the fall meeting 2012, Boston, USA.
  • Outstanding Doctoral Research Award 2012,Florida International University.
  • Prestigious Dissertation Year Fellowship (DYF), Florida International University for the academic yearof2011-2012. 
  • Prestigious Dissertation Evidence Acquisition (DEA) Fellowship, Florida International University for the academic year of 2010-2011. 
  • Honorary Membership offer for Sigma Xi, The Scientific Research Society, USA, 2012.
  • Winner of Second Prize in Student poster competition in FIU Graduate Scholarly Forum 2012.
  • Winner of Third Prize in Materials Challenges in Alternative and Renewable Energy2012, American Ceramic Society student poster contest.
  • Recipient of IIT Gold Medal for standing first in Masters Course at Indian Institute of Technology-(BHU), INDIA.
  • Honorary student member of "Golden Key International Honors Society", USA.
  • Honorary student member of "Tau Beta Pi” Engineering Honors Society, USA.
  • Honorary student member of "Delta Epsilon Iota” USA.
  • Winner of Prestigious GATE Fellowship from Government of INDIA 2003-2005.
  • Invited as Education Committee Member: ASM International (American Society for Metals), 2013.
  • Invited as Committee MemberJudges Panel, Sigma Xi, The Scientific Research Society 2013, 2014, 2015.

Editorial Board Member:

  • Material Science Research India, India.
  • Springer Nature Applied Science, Switzerland.
  • Advances in Materials, NY, USA.
  • Journal of Materials Science Research, the Canadian Center of Science and Education, Canada.

 Reviewer of the following international peer-reviewed journals:

  1. ACS Applied Energy Materials, American Chemical Society, USA.
  2. Materials Today Energy, Elsevier Publications
  3. Int. J. Hydrogen Energy, Elsevier Publications
  4. Nanoscale, Royal Society of Chemistry, UK
  5. Journal of Electronic Materials, Springer.
  6. Applied Physics Letters, American Institute of Physics Publications, USA.
  7. Physica Scripta, Institute of Physics, UK
  8. Journal of Materials Chemistry A, Royal Society of Chemistry, UK.
  9. Transactions on Electromagnetic Compatibility, IEEE, USA
  10. Journal of Materials Research, Materials Research Society, USA.
  11. Applied Surface Science, Elsevier Publications.
  12. CARBON, Elsevier Publications, Elsevier Publications.
  13. Journal of Alloys and Compounds, Elsevier Publications
  14. Materials and Design, Elsevier Publications
  15. Materials Chemistry and Physics, Elsevier Publications
  16. Royal Society Open Science, Royal Society of Chemistry
  17. Materials Letters, Elsevier Publications
  18. Materials Science and Engineering B, Elsevier Publications
  19. Materials Science & Engineering A, Elsevier Publications
  20. Materials Science and Engineering C, Elsevier Publications
  21. Solar Energy Materials and Solar Cells, Elsevier Publications.
  22. Journal of Non-Crystalline Solids, Elsevier Publications
  23. Journal of Physics and Chemistry of Solids, Elsevier Publications
  24. Solid State Communications, Elsevier Publications
  25. Thin Solid Films, Elsevier Publications
  26. Nanotechnology, Institute of Physics, UK.
  27. Journal of Applied Physics D, Institute of Physics.
  28. Surface and Coating Technology, Elsevier Publications.
  29. Materials Letters, Elsevier Publications.
  30. Current Applied Physics, Elsevier Publications.
  31. Journal of Solid State Chemistry, Elsevier Publications
  32. Applied Physics A, Springer.
  33. Journal of Nanoparticle Research, Springer.
  34. Journal of Applied Polymer Science, Wiley
  35. Metallurgical and Materials Transactions A, Springer.
  36. Journal of Materials Engineering and Performance, Springer.
  37. Nanoscience and Nanotechnology Letters, American Scientific Publishers.
  38. Journal of Materials Science Research, the Canadian Center of Science and Education Publication.

Course Development:
Developed three brand-new courses in the department of ceramic engineering in the year 2016-2017
1. Advanced Materials for Energy Devices
2. Nanoelectronics
3. Advanced Thin-film technology

Laboratory Development:
 Developed and Established the following undergraduate laboratories in the department:
1. Particle Mechanis and Fluid Flow Laboratory
2. Trinkering Laboratory

Class Teaching:
Graduate Courses
:
Theoretical Courses:
1. Nanoelectronics
2. Advanced Techniques for Materials Characterizations
3. Advanced Materials for Energy Devices
4. Nanoceramics
5. Electrical and Electronic Ceramics

Labotratory Courses:
1. Ceramic Engineering Laboratory
2. Materials Characterizations Lab

Undergraduate Courses:
Theoretical Courses:
1. Structure and Properties of Ceramic Materials 
2. Nanotechnology
2. Techniques for Materials Characterizations
3. Introduction to Ceramics
4. Basic Ceramic Practices
5. Ceramic Instrumental Analysis
6. Ceramic Coating

Laboratory Courses:
1. Nanotechnology
2. Particle Mechanics And Fluid flow Laboratory
3. Basic Ceramic Practices
4. Introduction to Ceramics
5. Electroceramics Lab

Memberships/Scholarly Societies

  • Life Fellow, Indian Chemical society.
  • Member, International Academy of Electrochemical Energy Science, Canada.
  • Member, Royal Society of Chemistry, UK
  • Member, American Ceramic Society, USA
  • Member, American Chemical Society, USA.
  • Senior Member Fellow of Institute of Electrical and Electronics Engineers (IEEE), USA
  • Senior Member Fellow of IEEE Photonic Society, USA.
  • Life Member of  Indian Society for ElectroAnalytical Chemistry (ISEAC), India
  • Life member of Materials Research Society of India, India.
  • Life member of Indian Carbon Society, India.
  • Member, Materials Research Society, USA
  • Member, The Electrochemical Society, USA
  • Member, Texas Society of Microscopy, USA
  • Member, Sigma Xi, the Scientific Research Society, USA
  • Life Member of Golden Key International Honors Society, “Tau Beta Pi” Engineering Honors Society, and “Delta Epsilon Iota” honor society
  • Life Member of “Indian Institute of Ceramics”, India

Other Involvements:

  • The Education and Professional Development Council (EPDC), American Ceramic Society, USA
  • Faculty Advisor, IEEE Photonics Society Student Branch Chapter, IIT(BHU), Varanasi
  • Active participant in Education committee activities for ASM International.
  • Session Chair at the Fall Meeting of Materials Research Society, USA, 2012 in session W14: Carbon Nanomaterials for Energy Application.
  • Served as Judge forStudent Research Showcase” Presentation Competition in Sigma Xi, The Scientific Research Society of USA, in the year of 2013, 2014, and 2015.
  • Served as Judge for “Super Poster Presentation”, College of Engineering, University of North Texas, USA, 2014.
  • Active participant in University of North Texas MRS chapter for TAMS, K-12 activities.
  • Secretary of the Materials Advantage-FIU for 2009-2010.
  • Symposium Assistant for Materials Research Society, Fall 2010 Annual meeting, Boston.

Research Positions: Ph.D. positions and Postdoc positions are available. Strongly motivated and interested candidates should contact Dr. Das (santanudas.cer@iitbhu.ac.in) directly for discussion on the work and position.

Research Positions: Ph.D. positions and Postdoc positions are available. Strongly motivated and interested candidate should contact Dr. Das (santanudas.cer@iitbhu.ac.in) directly regarding discussion on the work and position.