Vision:

Committed for carry out quality research on Semiconductor nanoparticles and based hetero structures with a zeal to develop various applications in the field of optoelectronics

· To Lead research activities related with high impact social and scientific calibre.

· Disseminate the knowledge among aspirants, teach core, applied as well as interdisciplinary areas of academic and technological importance.

· To be active part of effective teaching learning process, especially with the updation of pedagogy of understanding Physics and effective involvement in Interdisciplinary, Trans disciplinary areas.

· To be an Innovative and effective administrator to establish professional and institution growth alongwith keeping high moral values and standards.

· To guide and motivate the students at all level for planning and executing their vision for personal, professional and societal growth and nurture their intellectual honesty and academic integrity.

Summary:

Received doctorate degree on development of photovoltaic application, Three doctorates have been awarded under the guidance and 3 more are in progress.

Working as Professor in Physics in school of sciences at ITM University, Gwalior. Former Dean Research and Development and presently holding the position of Dean International Cooperation and Projects. Leading a research group comprising of collaborating Senior scientists from various labs of India and abroad, working on nanotechnology for Solar cells, LEDs, sensors and photo catalysts.

Honored by AICTE Young teacher Career award for the year 2011. Developed a world class P C Ray centre of Research for material characterization. Carried out his post doctoral work on core shell synthesis of various optoelectronic materials with Prof P O Brien, Director, Material Science University of Manchester UK. (ranked as one of the top 10 university in the world).

Received many grants by DST, MPCST and IUAC for various optoelectronic projects. Completed three research projects and working on another two research projects funded by IUAC, Delhi; and MPCST.

Member of advisory/editorial and reviewer board of various reputed International Journals from Elsevier, Springer, ACS and Wiley. member of scientific advisory board of INPOSO. Life member of various professional bodies like ISTE, IACS, Electrochemistry forum Institute of Nanotechnology, USA, IPA (Indian Physics association) and American chemical society.

Published more than 50 research papers in various referred journals/ proceedings and presented about 40 papers in various national /international seminars/symposia. Organized many national /international conferences specifically 3 times convener of international conference on issued and challenges in doctoral research at various parts of India. Also conducted basic certificate courses on nano sciences for school students. Conducted four DST INSPIIRE camps for meritorious studenrs of Class XI

Delivered many invited talks on solar cell, nanotechnology applications, and other emergent areas in various conferences.

List of Publications (In Referred Journals) /Proceedings

· Self-assembled Cu doped CdS nanostructures on flexible cellulose acetate substrates using low cost sol gel route, Nitin Kumar, Trilok K. Pathak, L. P. Purohit, H. C. Swart Y. C. Goswami , journal of nanostructures and nano objects Elsevier (under second revision).

· Optically important ZnS semiconductor nanoparticles synthesized using organic waste banana peel extract and their characterization, J Mater Sci: Mater Electron (2018) 29:1868–1876, DOI 10.1007/s10854-017-8097-6. Impact Factor 2.0.

· Sol-gel synthesis of SnO2/CdS heterostructures using various Cd:S molar ratio solution and its application in photocatalytic degradation of Organic Dyes, Journal of Materials Science Materials in Electronics, 2/17, DOI:10.1007/s10854-017-6634-y Impact Factor 2.0

· Sol gel synthesis of SnO2/CdSe nanocomposites and their optical structural and morphological characterizations, Vijay Kumar, P. Rajaram and Y.C. Goswami, Optik 127 (2016) 2490–2494. (SCI Impact Factor 0 .7).

· Highly luminescent ultra small Cu doped ZnO nanostructures grownby ultrasonicated sol–gel route, U.P.S. Gahlaut, Vijay Kumar, R.K. Pandey and Y.C. Goswami, Optik 127 (2016) 4292–4295 (SCI Impact Factor 0.7).

· Spin coating of ZnS nanostructures on filter paper and their characterization, Nitin Kumar, L.P. Purohit, Y.C. Goswami, Physica E: Low-dimensional Systems and Nanostructures xxx (2016) xxx-xxx ⁎ (SCI Impact Factor 2.6). DOI:10.1016/j.physe.2016.04.025

· Sonochemical growth of SnO₂ hollow nanostructure on cellulose acetate flexible substrates Y C Goswami, Vijay Kumar and P Rajaram, Materials Letters (Elsevier) 128 (2014) 425–428. (Impact factor 2.22)

· Synthesis of SnO₂ Nanostructures by Ultrasonic-Assisted Sol-Gel method, Y C Goswami, Vijay Kumar, P Rajaram, V Ganesan, Mohammad Azad Malik and Paul O’Brien; Journal of sol gel Science and technology, Springer, DOI: 10.1007/s10971-013-3241. (Impact Factor 1.66)

· Synthesis, spectral studies and quantum-chemical investigations on S-benzylβ-N-(4-NN biscynodiethylaminophenylmethylene) dithiocarbazate, Rajeev Singh, D. Kumar, Y.C. Goswami, Ranjana Sharma, Arabian Journal of Chemistry (Elsevier) DOI: http://dx.doi.org /10.1016/j.arabjc.2014.10.022 (2014).

· Growth of CuInSe₂ thin films by a single step electrodeposition technique using acetonitrile as complexing agent, Y C Goswami and P Rajaram, Canadian Journal of Physics, Can. J. Phys. 90: 981–986 (2012) doi:10.1139/P2012-094. Impact Factor 0.90

· Optical and structural properties of SnO₂ films Grown by a low cost cost CVD technique, P. Rajaram, Y. C. Goswami, V. K. Gupta and S. Rajagopalan, (2002), Material Letters, 54, 158-163, (2002) 45, 571-572(2002)

· Aerosol synthesis of CdS nanoparticles and their characterization, International Journal of Scientific research, ISSN No 2277 – 8179 14 (10 ) (2015 ), 149.Spin coating of highly luminescent Cu doped CdS nanorods and their optical structural characterization, Chalcogenide Letters, 12, 6, 2015, p. 333 – 338.

· Microwave assisted synthesis of highly luminescent ZnS nanostructures using Zinc Dithiocarbazic complex chemical route, Ranjna Sharma, Bhoop Singh, Vijay Kumar, Y.C. Goswami, Rajeev Singh and D Kumar, Advances in Optical Science and Engineering (Springer) ISBN:978-81-322-2366-5Series Title: Proceedings Phys. Volume Number:166 (2015).

· Synthesis of Cu doped ZnS nanostructures on flexible substrate using low cost chemical method, Nitin Kumar, L P Purohit, and Y C Goswami, Advances in Optical Science and Engineering (Springer) ISBN:978-81-322-2366-5Series Title: Proceedings Phys. Volume Number:166 (2015).

· Optically Enhanced SnO₂/CdS nanocomposites by chemical method and their characterization, Vijay Kumar, P. Rajaram, Y.C. Goswami, Advances in Optical Science and Engineering (Springer) ISBN:978-81-322-2366-5Series Title: Proceedings Phys. Volume Number:166 (2015).

· Growth of blue luminescent Cu doped ZnO Nanowires by Modified Sol-gel, U P S Gahlaut, Vijay Kumar, R K Pandey and Y C Goswami, Advances in Optical Science and Engineering (Springer) ISBN:978-81-322-2366-5Series Title: Proceedings Phys. Volume Number:166 (2015).

· Shor’s Algorithm for Quantum Number using MATLAB Simulator, Shweta Nagaich, Y.C. Goswmai, IEEE Explorer (ACCT), ISBN 978-1-4799-8487-9, doi: 10.1109/ACCT.2015.16, 165 – 168. (2015).

· Ion beam interaction with nanomaterials, Nitin Kumar, L. P. Purohit and Y. C. Goswami, International Journal of Engineering and Technical Research, Special Issue, pp 109-111, 2014.

· Synthesis of Cu doped ZnS nanostructures on flexible substrate using low cost chemical method, Nitin Kumar, L P Purohit and Y C Goswami, AIP Conf. Proc. 1675, 020030 (2015); http://dx.doi.org/10.1063/1.4929188

· Synthesis of CdS/CdSe core/shell ultra small nanostructures using new microwave assisted ultrasonic sol gel route, Y. C. Goswami, Vijay Kumar, Ranjana Sharma and Rajeev Singh; AIP Conference Proceedings 1591, 414 (2014); doi: 10.1063/1.4872622.

· Growth of fluorine doped SnO2 nanostructures by spin coating of ultrasonically prepared gel precursor, Y. C. Goswami, Vijay Kumar, V. Ganesan, and P. Rajaram, AIP Conf. Proc. 1512, 1290 (2013); doi: 10.1063/1.4791525.

· Synthesis, Spectral and Quantum-Chemical Calculations on 5-Bromo-4-hydroxy-3-methoxy-2-nitro Benzaldehyde Schiff Base of S-Benzyldithiocarbazate, Asian Journal of Chemistry, 24 (12), 5522-5524, (2012).

· Optical Characterization of Cadmium Sulphide films grown by newly modified hot substrate chemical bath colloidal route, Y C Goswami, Rajeev Singh, Ranjana Sharma and D Kumar, Contemporary Engineering Sciences,5(1), 1-8, (2012)

· Inverted type CdS/CdSe heterostructures synthesis and its optical structural characterization, Y C Goswami, Vijay Kumar and P Rajaram, Invertis Journal of Renewable Energy Vol. 2, No. 1,; pp. 32-35 (2012).

· Analysis of leakage reduction technique on different SRAM cells, Monika Yadav, Shyam Akashe and Y C Goswami, International Journal of Engineering trends and Technology, 2(3), (2011).

· Semiempirical & Experimental Investigation on Coordination behavior of Smethyl βN(4methoxyphenylmethyl) methylene dithiocarbazate Schiff base towards Co(II), Ni(II) and Cu(II) metal ions, Rajeev Singh, Y C Goswami and Ranjana goswami, Journal of Chemistry, ISSN : 2010-1589, 2(1), (2011).

· Growth of CdS nanostructures by new sol gel route and its optical characterization, Y. C. Goswami, Ranjana Sharma and P Rajaram, Nanotechnology and Nanosciences, ISSN :0976-7630, 2(1), 38-41,(2011).

· Optical Characterization of Chemically Deposited Nanostructured CdS films, Y C Goswami and Archana kansal, CP 1147, Transport and Optical properties of Nanomaterials-ICTOPON-2009, 1147, 223-228 (2009)

· Electromicroscopy of Electrodeposited CuInSe2 thin films. Dixit Prashar, Sonu Sharma, Nisha Devi, Yogesh Goswami and P Rajaram, Solid State Physics , 50, 581-582 (2007).

· Electrochemical growth of CuInSe₂ thin films (Thesis), Yogesh C. Goswami, Solid State Physics (India), 45,571-571,2002.

· Compositional analysis of CuInSe₂ thin films grown by electrodeposition, Y. C. Goswami and P. Rajaram, Solid State Physics (India), 44, 533-534, (2001)

· Junction analysis of thin film CdS/CuInS₂ solar cells, P. Rajaram, Y. C. Goswami and V. K Gupta, Solid State Physics (India), 44, 531-532 (2001)

· Annealing Studies of electrodeposited CuInSe₂ films Y.C.Goswami, Anu Bansal, Vijay Gupta and P. Rajaram; Solid State Physics (India), 43, 548-549 (2000).

· Electrochemical Deposition of CuInSe₂ thin films; Y.C.Goswami and P. Rajaram; Solid State Physics (India),42, 687-688 (1999)

· SnO₂ films grown by a low cost CVD Technique; P. Rajaram, V. K. Gupta, Y. C. Goswami ; Solid State Physics (India), 41, 514-515 (1998).