degree/ Certificate |
University /Institute |
Year |
Subject/ Specialization |
Ph.D. |
Hyderabad Central University, School of Chemistry |
2006 |
Chemistry (Biophysical and Bioinorganic Chemistry |
M.Phil. |
Hyderabad Central University (2001), School of Chemistry |
2001 |
Chemistry |
Teaching and Research Experience:
Institute |
Position |
Period |
Department of Chemistry, Central University of Punjab, Bathinda |
Professor |
2018 (December) - Current |
Department of Chemistry, Central University of Punjab, Bathinda |
Associate Professor |
2015, Dec - 2018, Dec |
School of Chemistry and Biochemistry, Thapar Institute of Engineering and Technology, Patiala, Punjab, India. |
Associate Professor |
2014, July - 2015, Dec |
School of Chemistry and Biochemistry, Thapar Institute of Engineering and Technology, Patiala, Punjab, India |
Assistant Professor |
July 2006-Jun 2014 |
Canadian Blood Services/Canadian Institutes of Health Research, Centre for Blood Research and Department of Biochemistry and Molecular Biology, University of British Columbia, Canada (Mentor Prof. Grant Mauk) |
Postdoctoral Fellow |
Jan 2007-Jan 2009 |
Hyderabad Central University, School of Chemistry |
Research Fellow |
Feb 2006 to July 2006 |
Administrative Experiences:
- Head of Department (Jan 2016 to March 2020), Department of Chemistry, Central University of Punjab, Bathinda
- Member, Executive Council (EC), (Jun 2020 to till date) Central University of Punjab, Bathinda
- Member, Academic Council (AC), (Jun 2020 to till date), Central University of Punjab, Bathinda
- Member, Internal Quality Assurance Cell (IQAC) (2018 to 2020), Central University of Punjab, Bathinda
- Member School Board, School of Basic and Applied Sciences (Jan 2016 to Till Date), Central University of Punjab, Bathinda
- Chairperson (BOS, AAC, CDDC) (Jan 2016 to March 2020), Department of Chemistry, Central University of Punjab, Bathinda
- Member (BOS, AAC, CDDC) (March 2020 to till date), Department of Chemistry, Central University of Punjab, Bathinda
- Senate member: (2015) Thapar Institute of Engineering and Technology, Patiala,
- SPPC Secretary (2015), School Planning & Policy Committee, School of Chemistry and Biochemistry, Thapar Institute of Engineering and Technology, Patiala
Research Areas (Bioinorganic and Biophysical Chemistry & Health Sciences) :
- Physical Principles of Structure, Function, and Motions of Biological Molecules: In order to confront the enigmatic issues of structure, folding, energy, motion, and function of proteins and enzymes (cytochrome c, myoglobin, lysozymes, titin I27, transferrins), biophysical chemistry research lab work interfaces physics, chemistry, and biology using advanced ultrafast kinetic (millisecond stopped flow, nanosecond laser flash photolysis), spectroscopic (NMR, UV-visible, fluorescence, Circular Dichroism (CD), double derivative FTIR etc), thermodynamic (differential scanning and isothermal titration calorimetry (DSC and ITC)), and single molecule atomic force clam spectroscopic techniques (SMFCS). Basic calculations in conjunction with kinetic, mechanical and structural modeling facilitate interpretation of the results (Journal of molecular Biology (2021), 433, 166976, Archives of Biochemistry and Biophysics (2018), 654, 146-162, Chemical Communications (2018), 54, 9635-9638, Biochemistry (ACS), 53(32) (2014) 5221-5235).
- Iron Metabolism and Iron Transportation: Blood plasma serum transferrin (Tf) is the principal protein involved in iron metabolism that we are studying. Tf is primarily responsible for transport and distribution of iron from the gut and liver to tissues requiring iron. For this protein, our general approach is to apply a variety of spectroscopic (UV-visible, fluorescence, Circular Dichroism (CD), FTIR), fast kinetic (millisecond stopped flow), thermodynamic (ITC and DSC), and mechanistic (single molecule atomic force clam spectroscopy) techniques to characterize the manner in which the protein environment influences the chemical and physical properties of the iron center. (J Phys Chem B (ACS) (2017) ;121(37):8669-8683); J. Phys. Chem. B (ACS), 116(12) (2012) 3795-3807, J. Phys. Chem. B (ACS)., 113(36) (2009) 12400-12409.
- Interplay between Metabolic disorder and Diabetes: As in subject with diabetes, the glucose concentration becomes surplus in body, which leads to glycation of several proteins in the bloodstream. Under hyperglycemia conditions, like in diabetes mellitus (DM), the glycation of blood proteins can significantly alter its ability to bind and transport metals from bloodstream to tissues. However, the molecular mechanism by which it causes these actions is not clearly understood. The biophysical chemistry lab research work evaluates the molecular mechanism by which glycation of blood proteins modulates the structural, kinetic, thermodynamic and functional properties of blood proteins.
Biophysical and Bioinorganic Chemistry, Biophysics, Health Science:
- Interactions of nanoparticles and ionic liquids with biomacromolecules.
- Advanced thermodynamic studies of biomacromolecules using isothermal titration and differential scanning calorimeters (ITC and DSC)
- Advanced ultrafast protein folding study using laser flash photolysis and fluorescence correlation spectroscopy (FCS) in confocal microscopy.
- Role of glycation on the mechanisms of iron and chromium binding and uptake by transferrin under hyperglycemic conditions
- Investigation of prevention and causes of protein misfolding/aggregation/amyloid fibrils formation in natively disordered proteins
- Structural and functional studies of metalloproteins using NMR, circular dichroism (CD), steady state and time resolved fluorescence. and millisecond stopped mixing device.
- Mechanical unfolding study of cardiac proteins by single-molecule atomic force spectroscopy
S. No. |
Title |
Agency |
Period |
Grant |
1.
2.
3.
|
Investigation of Role of Glycation on Mechanisms of Iron and chromium Binding and Release from Human Transferrin Combined computational and biophysical approaches to evaluate new multifunctional modulators of amylin-Cu2+-mediated amylin aggregations (Co-PI). Kinetic and Thermodynamic Studies of the Effects of Synergistic and Nonsynergistic Anions on Blood Plasma Transferrin. |
SERB-DST Govt. of INDIA
SERB-DST Govt. of INDIA
SERB-DST Govt. of INDIA |
2022-2025.
2023-2026 2015-2018. |
20 lacs
35.6 lacs (CUP, 6.51 lacs) Rs.-52.63 lacs |
4. |
The Mechanism of Reductive Release of Iron from Serum Transferrin, |
ICMR, Govt. Of INDIA |
2015-2018 |
Rs.-39.12 lacs |
5. |
The Role of Macromolecular Crowding on Structure, Function, Stability and Folding of Serum Transferrin. |
DBT Govt. Of INDIA |
2016-2018. |
Rs.-24.72 lakhs |
6. |
Structural, Kinetic and Thermodynamic Studies on Macromolecular Crowding on Eye Lens Crystallins |
CUPB (Internally funded) |
2017-2019 |
Rs.-3.0 lakhs |
7. |
The Kinetics and Mechanism of Iron Release from Transferrins: Rs.-18.5 lakhs sanctioned by DST (DST-Young Scientist Scheme). |
DST, Govt. of INDIA |
(2010-2013) |
Rs.-18.2 lacs |
8. |
Ki Kinetic and Thermodynamics Studies on the Effect of Chaotropic and Kosmotropic Coslovents on Horse Ferrocytochrome c, |
CSIR, Govt. of INDIA |
2011-2014 |
Rs. 21.2 lacs |
9. |
pH-dependent stability and microsecond-folding kinetics of horse ferrocytochrome c |
UGC, Govt. of INDIA |
2013-2015 |
Rs. 11.5 lacs |
10. |
The Mechanism of Iron Release from Transferrins |
Research grant- in-aid scheme, Thapar University, Patiala |
2009-2010 |
Rs. 1.0 lakh |
- Canadian Blood Services/Canadian Institutes of Health Research Personal Research Award in the Area of Transfusion Science (Jan 2007-2009)
- DST Young Scientist Award
- NET Qualified in Chemical Sciences.
- DST/DBT-SRF
- BOS member, Dept. of Chemistry and Chemical Sciences, Central University of Jammu
- BOS member, Dept. of Chemistry, MRSPTU, Bathinda
- BOS member, Dept. of Chemistry, LPU, Phagwara,
- Reviewer for competitive grant programs (DST-SERB).
- External Expert (PhD and Master thesis, CSIR, JNU, AIMS-New Delhi, LPU, Thapar Institute , Patiala)
- Reviewer of several journals (Physical Chemistry B (ACS), Biochimica et Biophysica Acta (BBA-general subject), Protein Design, Engineering and Selection (PEDS), PLOS one, RSC advances, Analytical Method (RSC), etc), Photochemistry and Photobiology, Food & Function, Research in Microbiology, Journal of Functional Foods, Applied Biochemistry and Biotechnology, Engineering Reports, etc).
1. Prof. P. Guptasarma, Department of Biological Sciences, IISER, Mohali
2. Dr. Deepak Sharma, Senior Scientist, IMTECH, CSIR, Chandigarh
3. Prof. Abani K. Bhuyan, School of Chemistry, University of Hyderabad
4. Prof. Grant A Mauk, Department of Biochemistry and Molecular Biology, University of British Columbia, Canada
5. Dr. , Assistant Professor, Dept. of Botany, Central University of Punjab, Bathinda
6. Dr. Rakesh Kumar, Dept. of Chemistry, Central University of Punjab, Bathinda
7. Dr. Bhupesh Goyal, Assistant Professor, School of Chemistry and Biochemistry, Thapar Institute of Engineering and Technology, Patiala, Punjab, India.
- Rajesh Kumar, Deepak Sharma, Navinder Kumar, Beeta Kumari, Shabnam, Sanjeev Kumar, Rajesh Kumar* (2023) Substitution of carbonate by non-physiological synergistic anion modulates the stability and iron release kinetics of serum transferrin. Biochimica et Biophysica Acta, 1871, 140856 (Impact factor 4.13).
- Mansi Garg, Deepak Sharma, Rajesh Kumar* (2022) Analysis of the effect of 1-Allyl-3-Methylimidazolium chloride on thermodynamic stability, folding kinetics, and motional dynamics of horse cytochrome c, Biophysical Chemistry, 290, 106892 (Impact factor 3.62).
- Anuradhika Puri , Priyanka singh , Navinder Kumar ,Rajesh Kumar, Deepak Sharma (2021) Tah1, a key component of R2TP complex that regulates assembly of snoRNP, is involved in de novo generation and maintenance of yeast prion [URE3], Journal of Molecular Biology. 433(13),166976. (Impact factor 6.15)
- Mansi Garg, Sandeep Kumar, Anupumdeep Kaur, Bhupesh Goyal, and Rajesh Kumar* (2021) Effect of imidazolium based ionic liquids on CO-association dynamics and thermodynamic stability of Ferrocytochrome c. Biophysical Chemistry, volume 268, 106497 (Impact factor 3.62)
- R. Jain, D. Sharma, R. Kumar and R. Kumar, (2019) Structural, kinetic and thermodynamic characterizations of SDS-induced molten globule state of a highly negatively charged cytochrome c, Journal of Biochemistry, Vol= 125, Pages=125-137 (Impact factor= 3.24).
- M. Muddassir, B. Manna, P. Singh, S. Singh, R. Kumar, A. Ghosh, D. Sharma (2018) Single-molecule force-unfolding of titin I27 reveals a correlation between the size of the surrounding anions and its mechanical stability, Chemical Communications, Vol =54, Pages=9635-9638 (Impact factor= 6.1)
- R. Kumar, D. Sharma, V. Kumar, R. Kumar (2018) Factors defining the effects of macromolecular crowding on dynamics and thermodynamic stability of heme proteins in-vitro, Archives of Biochemistry and Biophysics, Vol =654, Pages=146-162 (Impact factor 4.12 ).
- Kumar, R. Kumar, D. Sharma, M. Garg, V. Kumar, and M.C. Agarwal (2018) Macromolecular crowding-induced molten globule states of the alkali pH-denatured proteins, Biochimica et Biophysica Acta (BBA) - Proteins and Proteomics, Vol =1866, Pages=1102-1114 (Impact factor 4.13)
- M.Garg, B. Kumari and R.Kumar (2019) Effect of 1-allyl-3-methylimidazoleum bromide on the motional dynamics and thermal stability of horse ferrocytochrome c. AIP Conference Proceedings 2142, 200002 (2019)
- R. Jain, M. C. Agarwal, R. Kumar, D. Sharma, and R. Kumar (2018) Effects of lyotropic anions on thermodynamic stability and dynamics of horse cytochrome c, Biophysical Chemistry, Vol =240 Pages=88-97 (Impact factor= 3.62)
- Kumar, S. Sharma, D., and Kumar, R. (2017) Role of Macromolecular Crowding on Stability and Iron Release Kinetics of Serum Transferrin. J Phys Chem B (ACS). ;121(37):8669-8683 (Impact factor 3.47).
- Kumar, R. (2016) Analysis of the pH-dependent thermodynamic stability, local motions, microsecond folding kinetics of carbonmonoxycytochrome c. Archive of Biochemistry and Biophysics, 606, 16-25 (Impact factor 4.12).
- Jain, R., Kumar, R., Kumar, S., Chhabra, R., Agarwal, M. , and Kumar, R. (2015) Analysis of the pH-Dependent Stability and Millisecond Folding Kinetics of Horse Cytochrome c. Archive of Biochemistry and Biophysics 585, 52-63 (Impact factor 4.12)
- Kumar, R., Sharma, D., Jain, R., Kumar, S., and Kumar, R. (2015) Role of macromolecular crowding and salt ions on the structural-fluctuation of a highly compact configuration of carbonmonoxycytochrome c. Biophysical Chemistry 207, 61-73 (Impact factor= 3.62).
- Rishu Jain, Deepak Sharma, Sandeep Kumar, Rajesh Kumar. Factor defining the effects of glycine betaine on the thermodynamic stability and internal dynamics of horse cytochrome c, Biochemistry (ACS), 53(32) (2014) 5221-5235 (Impact factor= 3.321).
- Sandeep Kumar, Deepak Sharma, Rajesh Kumar, Rajesh Kumar. Electrostatic effects controls the stability and iron release kinetics of ovotransferrin, J. Biol. Inorg. Chem., 19(6) (2014) 1009-1024 (Impact factor= 3.862).
- Sandeep Kumar, Deepak Sharma, Rajesh Kumar. Effect of urea and alkylureas on the stability and structural fluctuation of the M80-containing ω-loop of horse cytochrome c, Biochimica et Biophysica Acta, 1844(3) (2014) 641–655 (Impact factor 4.13).
- Rishu Jain, Sandeep Kaur, Rajesh Kumar. Guanidine hydrochloride-induced alkali-molten globule model of horse ferrocytochrome c, Journal of Biochemistry, 153(2) (2013) 161-177 (Impact factor= 3.24). 341-354.
- Rishu Jain, Deepak Sharma, Rajesh Kumar. Effects of Alcohols on the Stability and Low-Frequency Local Motions that Control the Slow Changes in Structural Dynamics of Ferrocytochrome c, Journal of Biochemistry, 154 (4) (2013) (Impact factor= 3.24). 341-354.
- Rajesh Kumar, Rishu Jain, Rajesh Kumar. Viscosity-Dependent Structural Fluctuation of the M80-Containing Ω-Loop of Horse Ferrocytochrome c, Chemical Physics, 418 (2013) 57-64 (Impact factor= 2.552). 341-354..
- Rajesh Kumar, A. Grant Mauk. Protonation and Anion Binding Control the Kinetics of Iron Release from Human Transferrin, J. Phys. Chem. B (ACS), 116(12) (2012) 3795-3807 (Impact factor 3.47).
- Rajesh Kumar, A. Grant Mauk. Atypical Effects of Salts on the Stability and Irons Release Kinetics of Human Serum Transferrin, J. Phys. Chem. B., 113(36) (2009) 12400-12409 (Impact factor 3.47).
- Rajesh Kumar, A. Grant Mauk. Iron Release from Human Transferrin in the Absence of Chelators Involves Five Kinetic Steps at Acidic pH, J. Biol. Inorg. Chem.14, (2009) S185-S224 (Impact factor= 3.862).
- Rajesh Kumar, Abani K. Bhuyan. Entropic Stabilization of Myoglobin by Subdenaturing Concentrations of Guanidine Hydrochloride, J. Biol. Inorg. Chem., 14(1) (2009) 11-21 (Impact factor= 3.862).
- Rajesh Kumar, Abani K. Bhuyan. Viscosity Scaling for the Glassy Phase of Protein Folding, J. Phys. Chem. B 112(39) (2008) 12549-12554 (Impact factor 3.47).
- M. Yadaiah, Rajesh Kumar, Abani K. Bhuyan. Glassy dynamics in the folding landscape of cytochrome c: Detected by laser photolysis”, Biochemistry (ACS), 46(9) (2007) 2545-2551 (Impact factor= 3.32).
- Rajesh Kumar, Abani K. Bhuyan. Effect of guanidine hydrochloride on stability and dynamics of myoglobin, J. Biol. Inorg. Chem., 112 (2007) S223-S230 (Impact factor= 3.862).
- Rajesh Kumar, N. Prakash Prabhu, D. Krishna Rao, Abani K. Bhuyan, The Alkali Molten Globule State of Horse Fericytochonne c: Observation of Cold Denaturation, Journal of Molecular Biology., 364(3) (2006) 483-495 (Impact factor= 6.13).
- Krishna Rao, Rajesh Kumar, M. Yadaiah, Abani K. Bhuyan. The Alkali Molten Globule State of Ferrocytochrome c: Extraordinary Stability, Persistent Structure, and Constrained Overall Dynamics, Biochemistry (ACS), 45(10), (2006) 3412-3420 (Impact factor= 3.32).
- Rajesh Kumar, N. Prakash Prabhu, Abani K. Bhuyan. Ultrafast Events in the Folding of Ferrocytochrome c, Biochemistry (ACS), 44 (26) (2005) 9359-9367 (Impact factor= 3.32).
- Rajesh Kumar, Abani K. Bhuyan. Two-state Folding of Horse Ferrocytochrome c: Analyses of Linear Free Energy Relationship, Chevron Curvature, and Stopped-Flow Burst Relaxation Kinetics, Biochemistry (ACS), 44(8) (2005) 3024-3033 (Impact factor= 3.32).
- N. Prakash Prabhu, Rajesh Kumar, Abani K. Bhuyan. Folding barrier in horse cytochrome c: Support for a classical folding pathway, J. Mol. Biol., 337(1) (2004) 195-208 (Impact factor= 6.13).
- Rajesh Kumar, N. Prakash Prabhu, M. Yadaiah, Abani K. Bhuyan. Protein stiffening and entropic stabilization in the subdenaturing limit of guanidine hydrochloride, Biophysical J., 87(4) (2004) 2656- 2662 (Impact factor= 4.033).
- Abani K. Bhuyan, Rajesh Kumar (2002) Kinetic barriers to the folding of horse cytochrome c in the reduced state, Biochemistry (ACS), 41(42) (2002) 12821-12834 (Impact factor= 3.32).
List of PhD Thesis Supervised (03):
Sl. No. |
Name of Scholar |
Title of Dissertation |
Date of Award |
1. 2 |
Dr. Mansi Garg Dr. Rishu Jain |
Modulating Protein Stability, Folding and Dynamics by Ionic Liquids Kinetic and thermodynamic studies on the effect of chaotropic and kosmotropic cosolvents on proteins |
2022 2014 |
3 |
Dr. Sandeep |
Modulating Protein Stabilitv and Dynamics by Osmolytes and Electrolytes |
2016 |
4 |
Dr. Rajesh Kumar |
Kinetic and Thermodynamic Studies on the Effect of Amino Acids, Alcohols, Crowding agents, and Lyotropic Salts on Proteins |
2017 |
List of PhD Thesis and JRF-CSIR Ongoing:
Sl. No. |
Name of Scholar |
PhD proposal Synopsis
|
Date of Award |
|
|
|
|||
2. |
Miss Kiranjot Kaur (CSIR-JRF) |
|
Ph.D. Ongoing |
|
3.
|
Mr. Sanjeev Kumar (CSIR-JRF) |
|
Ph.D. ongoing |
|
4. |
Mr. Sumit Kumar |
|
Ph.D. ongoing |
|
5. |
Manisha (UGC-CSIR-JRF) |
|
Ph.D. ongoing |
|
6. |
Shabnam UGC-CSIR-JRF |
|
Ph.D. ongoing |
|
7. |
Jayanti Rawat (UGC-CSIR-JRF) |
|
Ph.D. ongoing |
M.Sc. Students: Master Thesis Supervised = 25 students
National and International
Sl. No. |
Topic/Title of Lecture/Paper |
Title of Conference/ Seminar |
Organized by & Date |
International (Abroad or within country) / National |
1 |
Role of Macromolecular Crowding on Structural, Kinetic and Thermodynamic Properties of Metalloproteins (invited talk). |
Annual Symposium of the Indian Biophysical Society, 22-25 March 2017, IISER Mohali, Punjab |
Indian Biophysical Society, IISER Mohali, Punjab |
National |
2 |
Guanidine Hydrochloride-Induced Folding and Stabilization of Alkali-Denatured Carbonmonoxycytochrome c. (paper presented) |
International Symposium on Protein Folding and Dynamics |
NCBS, Bangalore.
|
International (within country) |
3 |
Thermodynamic Analysis of Effect of Alcohols on Thermal Stability of Horse Ferrocytochrome c. (paper presented) |
International Symposium on Protein Folding and Dynamics |
NCBS, Bangalore.
|
International (within country) |
4 |
Iron Release from Diferric Ovotransferrin in the Absence of Chelators Involves Six Kinetic Steps at Acidic pH, (paper presented) |
6th National Conference on Thermodynamics of Chemical and Biological Systems, |
Department of Chemistry, Maharshi Dayanand University, Rohtak, |
National |
5 |
Effect of neutral salts on the stability of acid denatured hen egg white lysozyme . (paper presented) |
Material Research Society of India (23rd Annual meeting,. |
Thapar University |
National |
6 |
Atypical effect of salts on the stability of Fe3+-ovotransferrin CO32- complex. (paper presented) |
Material Research Society of India, 23rd Annual meeting, |
Thapar University |
National |
7 |
Entropic stabilization of Ferrocytochrome c by subdenaturing concentrations of methanol. (paper presented) |
Material Research Society of India, 23rd Annual meeting, |
Thapar University |
National |
8 |
Effect of neutral salts on the stability and dynamics of horse cytochrome c. (paper presented) |
National Conference on Emerging Trends in Chemistry Biology Interface,) |
Kumaun University, Nainital. |
National |
9 |
The size of anions and crowding agents control the local dynamics of a native-like compact state of horse ferrocytochrome c (paper presented) |
NCIMSF 2013 |
Thapar University, Patiala |
National |
10 |
Hydrophobicity of denaturants control the local dynamics of a native-like compact state of horse ferrocytochrome c (paper presented) |
NCIMSF 2013 |
Thapar University, Patiala |
National |
11 |
The glycine effect on release of iron from transferrins (paper presented) |
NCIMSF 2013 |
Thapar University, Patiala |
National |
12 |
The Mechanism of Iron Release From Human Transferrin (paper presented) |
National Symposium on Green Chemistry |
Thapar University, Patiala |
National |
13 |
Analysis of the pH-Dependent Thermodynamic Stability, Local Motions, and Microsecond Folding Kinetics of Carbonmonoxycytochrome c (paper presented) |
2nd Conference on Microscopy in Materials Science (AMST-2016) |
School of Physics and Materials Science, Thapar University and Academy of Microscope Science and Technology. |
National |
14 |
Kinetic and Mechanism of Iron Release from Blood Plasma Transferrin (Invited talk)
|
2nd Conference on Microscopy in Materials Science (AMST-2016) |
School of Physics and Materials Science, Thapar University and Academy of Microscope Science and Technology. |
National |
15 |
Effect of 1-Allyl-3-Methylimidazolium Bromide on the Motional Dynamics and Thermal Stability of Horse Ferrocytochromec (accepted) |
International conference on advances in basic sciences (ICBAS-19) |
GDC Memorial College Bahal-1, 7-9 Feb 2019 |
International (within country) |
16 |
Effects of Osmolytes on the Stability and Motional Dynamics of Horse Ferrocytochrome c |
National Conferences on Advances in Chemical Engineering, (Editors P.K. Bajpai and H. Bhunia, Macmillan Advanced Research Series) |
Thapar, University, Patiala, Feb27-28, 2011 |
National |
19 |
Chairing session |
National Conferences on Advances in Chemical Engineering, (Editors P.K. Bajpai and H. Bhunia, Macmillan Advanced Research Series) |
Thapar, University, Patiala, Feb27-28, 2011 |
National |
20 |
Thermodynamic, Structural and Functional Studies of MetalloproKineticteins (Invited talk) |
National Conference on “Emerging Scenario in Basic & Applied Sciences for Sustainable Development, |
DAV College Bathinda, 5th April 2018 |
National |
University Level
National Level
International Level