Fusion
Fusion
FUSION offers unparalleled expertise and impeccable reliability in the realm of nanotechnology. Our services are designed to empower your research and drive transformative outcomes in the nanotech domain.
Our Collaborative Partners
Principal Investigator
Dr Sudipta Som
- Associate Professor
- Department of Physics
- Shiv Nadar University Chennai
- Email: [email protected]
For Complete CV,
PhD Scholars
Jatin Dhanuka
- Email: [email protected]
- Research Interest: Mini LED backlights, Warm white LEDs, luminescence nanothermometry
- Current Position: Ph.D. 3rd Year
For Complete CV,
Monalisha Behera
- Email: [email protected]
- Research Interest: NIR LED, pesticide residue detection, thermal imaging and sensing for breast cancer
- Current Position: Ph.D. 2nd Year
For Complete CV,
Under Graduates
Shirley
- Email: [email protected]
- Research Interest: Pesticide residue detection, Image processing
- Current Position: B.Tech (IOT) 3rd Year
Shrivarshini
- Email: [email protected]
- Research Interest: Pesticide residue detection, Image processing
- Current Position: B.Tech (IOT) 3rd Year
Aadithiyaa S
- Email: [email protected]
- Research Interest: DIY Spectrophotometer for breast cancer treatment
- Current Position: B.Tech (IOT) 2nd Year
Kabin Eshwar R R
- Email: [email protected]
- Research Interest: DIY Spectrometer for breast cancer treatment
- Current Position: B.Tech (IOT) 2nd Year
Akshat Joshi
- Email: [email protected]
- Research Interest: DIY Spectrometer for brfeast cancer treatment
- Current Position: B.Tech (IOT) 2nd Year
Research Visitors
Dharanidharan J
- PhD Scholar
- Department of Physics, SNUC
- Email: [email protected]
- Research Interest: MOF based Cancer sensors, MEMS based Gas Sensor, MEMS Sensor and Actuators.
Suresh V
- PhD Scholar
- Department of Chemistry, SSN College of Engineering
- Email: [email protected]
- Research Interest: Electrochemistry and Surface chemistry
Mary Vijitha A
- PhD Scholar
- Department of Physics, SNUC
- Email: [email protected]
- Research Interest: MOF based Cancer sensors, MEMS based Gas Sensor, MEMS Sensor and Actuators.
Arathy Krishna M
- PhD Scholar
- Department of Physics, SNU
- Email: [email protected]
- Research Interest: Photonic Integrated Circuits and Sensors, MEMS
Publications
Publications
1. Monalisha Behera, Somrita Dutta, Sudipta Som*, Jatin Dhanuka, Warit Chaiwattanamethin, Mukesh K. Pandey, R.K. Dubey, Hendrik C. Swart, Eu2+→ Mn2+ energy transfer driven tunable emission in KMgLa(PO4)2 for human-centric circadian lighting, J. Alloys Compds 1039 183051 (2025).
2. Malini Abraham, Jatin Dhanuka, Sudipta Som, Mukesh K. Pandey, Subrata Das, A highly efficient deep red-emitting Mn4+-powered oxyfluoride nanophosphor developed for plant growth and optical thermometric applications. Nanoscale 16 10690 (2024).
3. Irfan Ayoub, Umer Mushtaq, M.Y.A. Yagoub, Sudipta Som, Hendrik C. Swart, Vijay Kumar, Structural, optical, and color-tunable luminescence of Dy3+-doped Ca3Ga4O9 phosphors for white-light emitting diode applications. Materials Science and Engineering: B 310 117724 (2024).
4. Sudipta Som, Jing-Wei Hong, Karan Kumar Gupta, Chung-Hsin Lu, Surfactant-induced modification in photoluminescence properties of Ce0.9-xY0.1DyxO2-δ phosphors for single host white light emitting diodes. Ceram. Int. 49 11813 (2023).
5. Sreevalsa Subhagan, Shahzad Ahmad, Partha Kundu, Mukesh Kumar Pandey, Sudipta Som, Subrata Das, Governing the crystallographic sites for tuning Eu2+ emission in an appetite oxyfluoride host to be applied for superior white light-emitting diodes. Dalton Trans. 51 14601 (2022).
6. Mohan Lal Meena, Chung-Hsin Lu, Sudipta Som, Rajneesh Chaurasiya, Shawn D. Lin, Highly efficient and thermally stable Eu3+ activated phosphate based phosphors for wLEDs: An experimental and DFT study, Journal of Alloys and Compounds 895 162670 (2022).
7. Sudipta Som*, Chung- Hsin Lu, Che- Yuan Yang, Subrata Das, Synthesis and design of NaYF4 microprisms via a microwave- assisted approach for highly sensitive optical thermometry applications. Journal of the American Ceramics Society 104 5168 (2021).
8. Rajan Kumar Singh, Sudipta Som*, Chung-Hsin Lu, Spectroscopic investigation of red Eu3+ doped ceria nanophosphors and promising color rendition for warm white LEDs. Journal of Alloys and Compounds 816 1526532 (2020).
9. Somrita Dutta, Sudipta Som#, Mohan Lal Meena, R. Chaurasiya, Teng-Ming Chen, Multisite-Occupancy-Driven Intense Narrow-Band Blue Emission from Sr5SiO4Cl6:Eu2+ Phosphor with Excellent Stability and Color Performance. Inorganic chemistry 59 1928- 1939 (2020).
10. Nan Guan, Nuño Amador-Mendez, Junkang Wang, Subrata Das, Akanksha Kapoor, François H Julien, Noëlle Gogneau, Martin Foldyna, Sudipta Som, Joël Eymery, Christophe Durand, Maria Tchernycheva, Colour optimization of phosphor-converted flexible nitride nanowire white light emitting diodes. Journal of Physics: Photonics 1 (3) 035003 (2019).
11. Sudipta Som*, Peng-Hsuan Kuo, Chung-Hsin Lu, Facile synthesis of Eu2+ activated dual light emitting barium silicate phosphors for warm-white light emitting diodes. Journal of Alloys and Compounds 790 1060- 1064 (2019).
12. Sudipta Som*, Che-Yuan Yang, Chung-Hsin Lu, Subrata Das, Synthesis of Li+-ion activated NaYF4: Er3+/Yb3+ phosphors via a modified solid-state process for latent fingerprint detection. Ceramics International 45 (5) 5703-5709 (2019).
13. Chung‐Hsin Lu, Che‐Yuan Yang, Sudipta Som, Subrata Das, Facile synthesis and spectroscopic characterization of siliconitride phosphors for white LEDs. Journal of the American Ceramic Society 101 (11) 4916-4920 (2018).
14. Somrita Dutta, Sudipta Som, Teng-Ming Chen, Promising Er3+/Yb3+-Codoped GdBiW2O9 Phosphor for Temperature Sensing by Upconversion Luminescence. ACS omega 3 (9) 11088-11096 (2018).
15. A Yousif, RM Jafer, S Som, HC Swart, The effect of the host lattice on the optical properties of Bi3+ in Ca1-xO:Bi and Ca1-x(OH)2: Bi phosphors. Applied Surface Science 433 155-159 (2018).
16. Che-Yuan Yang, Sudipta Som*, Subrata Das, Chung-Hsin Lu, Synthesis of Sr2Si5N8:Ce3+ phosphors for white LEDs via efficient chemical vapor deposition. Scientific reports 7 (1) 1-14 (2017).
17. Subrata Das, Sudipta Som*, Che-Yuan Yang, Sudam Chavhan, and Chung-Hsin Lu, Temperature dependent photoluminescence characterizations of Eu3+ doped SrZrO3 phosphor for optical thermometry application. Scientific Reports 6 25787 (2016).
18. Sudipta Som*, Subrata Das, Che- Yuan Yang and Chung- Hsin Lu, Microwave assisted hydrothermal synthesis of spherical Y2O3 ceramic powder coated by Eu3+: bright red emitting media with > 80% luminescence efficiency. Ceramics International 42 8022 (2016).
19. Sudipta Som*, Subrata Das, Che-Yuan Yang and Chung-Hsin Lu, Enhanced upconversion of NaYF4:Er3+/Yb3+ phosphors prepared via the rapid microwave-assisted hydrothermal route at low temperature: phase and morphology control. Optics Letters 41 464 (2016).
20. Vijay Kumar, S Som*, S Dutta, S Das, and H. C. Swart, Red-light-emitting inorganic La2CaZnO5 frameworks with high photoluminescence quantum efficiency: Theoretical approach. Materials & design 93 203 (2016).
21. S. Som*,#, Vijay Kumar, Vinod Kumar, Mukut Gohain, Anurag Pandey, M.M. Duvenhage, J. J. Terblans, H. C. Swart, B.C.B. Bezuindenhoudt, Dopant distribution and influence of sonication temperature on the pure red light emission of mixed oxide phosphor for solid state lighting. Ultrasonic Sonochemistry 28 79 (2016).
22. S. Som*, S. Dutta, Vijay Kumar, Anurag Pandey, Vinod Kumar, A K Kunti, J. Priya, S. K. Sharma, J. J. Terblans, H. C. Swart, CaTiO3: Eu3+, a potential red long-lasting phosphor: energy migration and characterization of trap level distribution. Journal of Alloys and Compounds, 622 1068 (2015).
23. Vinod Kumar, S. Som, Vijay Kumar, Vinay Kumar, O.M. Ntwaeaborwa, E. Coetsee, H.C. Swart, Tunable and white emission from ZnO: Tb3+ nanophosphors for solid state lighting applications. Chemical Engineering Journal, 255 541 (2014).
24. Anurag Pandey, S. Som, Vijay Kumar, Vinod Kumar, Kaushal Kumar, Vineet Kumar Rai, H. C. Swart, Enhanced upconversion and temperature sensing study of Er3+-Yb3+ codoped tungsten-tellurite glass. Sensors and Actuators B, 202 1305 (2014).
25. S. Som*,#, P. Mitra, Vijay Kumar, Vinod Kumar, J. J. Terblans, H. C. Swart, S. K. Sharma, Energy transfer phenomena and colour tunability in Y2O2S:Eu3+/Dy3+ micro-fibers for white emission in solid state lighting application. Dalton Transaction, 43 9860 (2014).
26. Vinod Kumar, Vijay Kumar, S Som, A Yousif, Neetu Singh, OM Ntwaeaborwa, A Kapoor, H. C. Swart, Effect of annealing on the structural, morphological and photoluminescence properties of ZnO thin films prepared by spin coating. Journal of Colloids and Interface, 428 8 (2014).
27. Vinod Kumar, Vijay Kumar, S Som, OM Ntwaeaborwa, H. C. Swart, Effect of Eu doping on the photoluminescence properties of ZnO nanophosphors for red emission application. Applied Surface Science, 308 419 (2014).
28. S. Som*,#, A K Kunti, Vijay Kumar, Vinod Kumar, S. Dutta, M. Chowdhury, S. K. Sharma J. J. Terblans, H. C. Swart, Defect correlated fluorescent quenching and electron phonon coupling in the spectral transition of Eu3+ in phosphor host for pure red emission in solid state lighting application. Journal of Applied Physics, 115 193101 (2014).
29. Vinod Kumar, H.C. Swart, Mukut Gohain, Vijay Kumar, S. Som, B.C.B Bezuindenhoudt, O.M. Ntwaeaborwa, Influence of ultrasonication times on the tunable colour emission of ZnO nanophosphors for lighting applications. Ultrasonics Sonochemistry, 21 1549 (2014).
30. S. Dutta, S. Som and S. K. Sharma, Luminescence and photometric characterization of K+ compensated CaMoO4:Dy3+ nanophosphors. Dalton Transactions, 42 9654 (2013).
31. S. Som*, S.K.Sharma and S.P.Lochab, Ion induced modification of bandgap and CIE parameters in Y2O3: Dy3+ phosphor. Ceramics International, 39 7693 (2013).
32. S Som*, S K Sharma and T Shripathi, Influences of Doping and Annealing on the Structural and Photoluminescence Properties of Y2O3 Nanophosphors. Journal of Fluorescence, 23 439 (2013).
33. S. Dutta, S. Som, P. S. Mandal and S.K.Sharma, CaMoO4:Dy3+, K+ near white light emitting phosphor: structural, optical and dielectric studies. Journal of Materials Science & Technology, 29 633 (2013).
34. S. Som*, S.K.Sharma, Eu3+/ Tb3+ codoped Y2O3 nanophosphors: Rietveld refinement, Bandgap and Photoluminescence optimization. Journal of Physics D: Applied Physics, 45 415102 (2012).
Publications
1. CY Ou, S Som, KK Gupta, CW Yu, CH Lu, Influence of reduction treatment for TiNb2O7 nanoparticles on the electrochemical properties for Li-ion batteries. J Am Ceram Soc. 108 e20201 (2025).
2. K-H Liang, S Som, KK Gupta, C-H Lu. Electrochemical characterization of TiNb2O7 as anode material synthesized using microwave-assisted microemulsion route. J Am Ceram Soc. 105 7446–7454 (2022).
3. Chung-Hsin Lu, T Subburaj, Hong-Ting Chiou, Sudipta Som, Chang Ying Ou, P Senthil Kumar, S Balaji, Facile sol-gel synthesis of LiMn0.5Fe0.5PO4 cathode materials fostered by bio-derived natural agar. Ionics 26 (2) 1051-1056 (2020).
4. Madhav P Chavhan, Sudipta Som, Chung-Hsin Lu, Size-controlled ceria nanocubes obtained via hydrothermal route for electrochemical capacitors. Materials Letters 257 126598 (2019).
5. Chung-Hsin Lu, N Naresh, P Senthil Kumar, Sudipta Som, Microwave-assisted solvothermal synthesis and electrochemical characterizations of ternary perovskite NiTiO3 anode materials for lithium-ion batteries. Ceramics International 45 (15) 19517-19521 (2019).
Publications
1. Chang-Ying Ou, Sudipta Som, Chung-Hsin Lu, Karan Kumar Gupta, Rajneesh Chaurasiya, Photovoltaic characteristics and computational simulation of samarium-ion doped Cu(In,Ga)Se2 thin films prepared via a non-vacuum coating process. Journal of Alloys and Compounds 881 160377 (2021).
2. Chang-Ying Ou, Sudipta Som, Chung-Hsin Lu, K. K. Gupta, Rajneesh Chaurasiya, Photovoltaic characteristics and computational simulation of samarium- ion doped Cu(In, Ga)Se2 thin films prepared via a non-vacuum coating process. Journal of Alloys and Compounds 881 160377 (2021).
3. Chang-Ying Ou, Sudipta Som, Chung-Hsin Lu, Incorporation of copper–indium back-end layers in the solution-based Cu (In, Ga) Se2 films: enhancement of photovoltaic performance of fabricated solar cells. Materials Research Express 7 (2) 026409 (2020).
4. Chung-Hsin Lu, Guan-Lin Chiu, Sudipta Som, Chang-Ying Ou, Influence of selenization temperatures on the microstructures and photoelectric properties of iron-ion doped Cu (In,Ga)Se2 thin-film solar cells. Vacuum 156 212-218 (2018).
5. Ming-Ching Chen, Jen-Cheng Sung, Chang-Ying Ou, Sudipta Som, Chung-Hsin Lu, Fast formation of CdS thin films prepared via the microwave-assisted chemical bath deposition process. Thin Solid Films 645 64-69 (2018).
6. Heng‐Yu Liu, Sudipta Som, Jen‐Cheng Sung, Chang‐Ying Ou, Che‐Yuan Yang, Chung‐Hsin Lu, Effects of ammonia concentration on the formation of CdS fabricated via microwave‐assisted chemical bath deposition. Journal of the American Ceramic Society 100 (11) 5120-5130 (2017).
7. Jeng-Shin Ma, Che-Yuan Yang, Sudipta Som and Chung-Hsin Lu, Preparation and characterization of Cu(In,Ga)Se2 Thin Films via Direct Heating Selenium-ion Containing Precursors. Ceramics International 41 10980 (2015).
Publications
1. Mohan Lal Meena, Karan Kumar Gupta, Somrita Dutta, Rajesh Kumar, Rajan Kumar Singh, Chung-Hsin Lu, Shawn D. Lin, Sudipta Som, Short review on the instability and potential solutions for perovskite quantum dots. Current Research in Green and Sustainable Chemistry 5 100321 (2022).
2. Somrita Dutta, Deepak Vishnu S. K, Sudipta Som, Rajneesh Chaurasiya, Dinesh Kumar Patel, Kalimuthu Moovendaran, Cheng-Chieh Lin, Chun-Wei Chen, Raman Sankar, Segmented Highly Reversible Thermochromic Layered Perovskite [(CH2)2(NH3)2]CuCl4 Crystal Coupled with an Inverse Magnetocaloric Effect. ACS Appl. Electron. Mater. 4 521 (2022).
3. Chung-Hsin Lu, Rajan Kumar Singh, Ting- Yu Chen, Sudipta Som, Rajesh Kumar, Shao An Lu, Mohan Lal Meena, Rapid synthesis and theoretical analysis of CH3NH3Pb1-xCdxBr3 perovskite quantum dots for backlight LEDs: A step towards enhanced stability. Organic Electronics 102 106444 (2022).
4. S. Dutta, L. Yang, S.Y. Liu, C.M. Liu, L.J. Liaw, S. Som, A. Mohapatra, R. Sankar, W.C. Lin, Y.C. Chao, Impact of Co2+ on the magneto-optical response of MAPbBr3: An inspective study of doping and quantum confinement effect. Materials Today Physics 27 100843 (2022).
5. Yi-Hsin Liu, Rajan Kumar Singh, Shao-An Lu, Sudipta Som, Chung-Hsin Lu, Incorporation of Cesium ions in FAPbBr3 quantum dots: Spectroscopic characterization for light-emitting application. Journal of the Taiwan Institute of Chemical Engineers 1396.104469 (2022).
6. Chieh-Wen Hsieh, Rajan Kumar Singh, Sudipta Som, Chung-Hsin Lu, Detection of Fe (III) using APTES-coated CsPbBr3–CsPb2Br5 perovskite quantum dots. Chemical Engineering Journal Advances 12 100358 (2022).
7. Rajan Kumar Singh, Pushkal Sharma, Chung-Hsin Lu, Ranveer Kumar, Sudipta Som, Somrita Dutta, Neha Jain, Mohan Lal Meena, Jai Singh, Teng-Ming Chen, Incorporation of zinc ions towards low toxicity and high stability of organic-inorganic methyl ammonium lead bromide perovskite QDs via ultrasonication route for white-LEDs. Journal of Molecular Liquids 337 116557 (2021).
8. Chung-Hsin Lu, Yi-Hsin Liu, Mohan Lal Meena, Sudipta Som#, Synthesis and spectroscopic characterization of CsPbBr3/Cs4PbBr6 perovskites synthesized via the microwave-assisted heating process for backlight display devices. Organic Electronics 91 106079 (2021).
9. Rajan Kumar Singh, Pushkal Sharma, Ranveer Kumar, Sudipta Som, Somrita Dutta, Neha Jain, Rajneesh Chaurasiya, Mohan Lal Meena, Jian-Syun Ho, Shu-Wen Dai, Jai Singh, Chung-Hsin Lu, Hao-Wu Lin, CH3NH3Pb1–xCoxBr3–2xCl2x Perovskite Quantum Dots for Wide-Color Backlighting. ACS Applied Nano Materials 4 (1) 717-728 (2021).
10.Rajan Kumar Singh, Sudipta Som, Somrita Dutta, Neha Jain, Jai Singh, Ranveer Kumar, Chung-Hsin Lu, Rapid and room temperature synthesis of MAPb1−xSnxBr3−2xCl2x perovskite quantum dots with enhanced lifetime in warm WLEDs: A step towards environmental friendly perovskite light harvester. Chemical Engineering Journal 391 123629 (2020).
11. Rajan Kumar Singh, Sudipta Som, Somrita Dutta, Neha Jain, Mei-Tsun Kuo, Jai Singh, Ranveer Kumar, Teng-Ming Chen, Rapid synthesis of hybrid methylammonium lead iodide perovskite quantum dots and rich MnI2 substitution favouring Pb-free warm white LED applications. Nanoscale Advances 1 (8) 2999-3008 (2019).
12. Vinod Kumar, Vijay Kumar, S Som, J.H. Neethling, Mike Lee, O.M. Ntwaeaborwa, H.C. Swart, Role of surface and deep-level defect on the emission of tin oxide quantum dots. Nanotechnology, 25 135701 (2014).
Publications
1. S. Dutta, S. Som, M.L. Meena et al. Probing the luminescence behavior of Dy3+/Eu3+ co-doped gadolinium molybdate phosphors under the impact of swift heavy ions. Opt. Quant. Electron. 56 942 (2024).
2. S Dutta, S Som#, AK Kunti, Vijay Kumar, SK Sharma, HC Swart, HG Visser, Structural and luminescence responses of CaMoO4 nano phosphors synthesized by hydrothermal route to swift heavy ion irradiation: Elemental and spectral stability. Acta Materialia 124 109- 119 (2017).
3. S. Som*, Subrata Das, S. Dutta, H. G. Visser, Mukesh Kumar Pandey, Ritesh Kumar Dubey, S. K. Sharma, S. P. Lochab, A comparative study on the influence of 150 MeV Ni7+, 120 MeV Ag9+ and 110 MeV Au8+ swift heavy ions on the structural and thermoluminescence properties of Y2O3: Eu3+/Tb3+ nanophosphor for dosimetric applications. Journal of Materials Science 51 1278 (2016).
4. S Som*, M Chowdhury, S K Sharma, Kinetic parameters of γ-irradiated Y2O3 phosphors: Effect of doping/ codoping and heating rate. Radiation physics and Chemistry 110 51 (2015).
5. S.Som*, M.Chowdhury, S.K.Sharma, Band gap and trapping parameters of colour tunable Yb3+/Er3+ codoped Y2O3 upconversion phosphor synthesized by combustion route. Journal of Materials Science, 49 858 (2014).
6. S Som*,#, S Dutta, M Chodhury, Vijay Kumar, Vinod Kumar, Hendric C Swart and S K Sharma, A comparative investigation on ion impact parameters and TL response of Y2O3:Tb3+ nano phosphor exposed to swift heavy ions for space dosimetry. Journal of Alloys and Compounds, 589 5 (2014).
7. S Som*,#, S Dutta, Vijay Kumar, Vinod Kumar, H C Swart, S K Sharma, Swift heavy ion irradiation induced modification in structural, optical and luminescence properties of Y2O3:Tb3+ nanophosphor. Journal of Luminescence, 146 162 (2014).
8. S. Som*, S.K.Sharma and S.P.Lochab, Morphology, ion impact, and kinetic parameters of swift heavy-ion-induced Y2O3:Dy3+ phosphor. Phys. Status Solidi A, 210 1624 (2013).
9. S. Som*, S.K.Sharma and S.P.Lochab, Swift heavy ion induced structural and optical properties of Y2O3: Eu3+ nanophosphor. Materials Research Bulletin, 48 844 (2013).
Publications
Metal oxides based materials for display devices, Mohan Lal Meena, Sudipta Som#, Chung-Hsin Lu*, Ranveer Singh Badgoti, Somrita Dutta, Rajan Kumar Singh, Shawn D. Lin*, H. C. Swart, Metal oxide heterostructure and their application (ISBN 605095), Publisher Elsevier.
Intrinsic defect engineering of metal oxides for lighting applications, Mohan Lal Meena, Rajneesh Chaurasiya, Sudipta Som#, Chung-Hsin Lu*, Somrita Dutta and Shawn D. Lin* “”, Metal Oxide Defects: Fundamentals, Design, Development and Applications (ISBN:0323903592), Publisher Elsevier.
Luminescent nanomaterials: A step towards solid-state lighting and display, Mohan Lal Meena, Sudipta Som#, Chung-Hsin Lu*, Somrita Dutta, Rajan Kumar Singh, Shawn D. Lin*, Luminescent Nanomaterials (ISBN:9789814968119), Jenny Stanford Publishing.
Trapping Parameters of Thermally Stimulated Luminescence Glow Curves in Y2O3:Tb3+ Nanophosphor, S.Som*, S.K. Sharma, S P Lochab, Advanced Nanomaterials and Nanotechnology, Springer, 143, (2013) 191-202.
Swift Heavy Ion Synthesis and Modifications of Nanophosphors for Dosimetric Application: Effect of Swift Heavy Ion Irradiation, Sudipta Som*, Somrita Dutta, Vijay Kumar, Hendrik C. Swart, Emerging Synthesis Techniques for Luminescent Materials, IGI Global, 1, (2018) 1- 25.
Lead-free hybrid perovskite light-harvesting material for QD-LED application, Rajan Kumar Singh, Neha Jain, Sudipta Som#, Somrita Dutta, Jai Singh and Ranveer Kumar, Perovskite Materials, Devices and Integration, Intech Open, London, United Kingdom, ISBN: 978-1-78985-072-7. DOI:10.5772/intechopen.86836
Development in the innovation of lead halide based perovskite quantum dots from rare earth doped garnet based phosphors for light-emitting diodes, Rajan Kumar Singh, Neha Jain, Sudipta Som#, Somrita Dutta, Jai Singh, Ranveer Kumar, T.M.Chen and H. C. Swart, Spectroscopy of Lanthanide Doped Oxide Materials, Elsevier Publication (Woodhead Publishing, Cambridge, UK) ISBN: 9780081029350
Publications
Sharp line Red-emitting polyborate phosphor for light applications, Sudipta Som*,#, Somrita Dutta, Vikas Dubey, ISBN: 978-3-330-00096-4, Lambert Academic Publishing (2016).
Luminescent Materials in display and biomedical applications, Vikas Dubey, Sudipta Som*, Vijay Kumar, ISBN: 978-0-367-11212-7, CRC Press, Taylor & Francis Group (2021).
Metal Oxide Defects: Fundamentals, Design, Development and Applications, Vijay Kumar, Sudipta Som#, Vishal Sharma, Hendrik C Swart, (ISBN:0323903592), Publisher Elsevier (2023).
Our Work
Development of transition metal oxide-based phosphors via defect engineering for warm white light emitting diodes
Funding Agency: Shiv Nadar University Chennai Internal Seed grant
Duration: 2023- 2026
Hybrid nanomedicine as potential biomolecule carriers for effective therapy and precise monitoring
Funding Agency: Shiv Nadar University Chennai Internal Seed grant
Duration: 2023- 2026
The blue-green infrastructure for storm water management and water reuse
Funding Agency: Shiv Nadar University Foundation grant
Duration: 2024 – 2027
Teaching
2025
- PH1001T: Engineering Physics (Cyber Security). 3 Credits.
- PH1801T: Engineering Physics Lab (Cyber Security). 2 Credits.
2024
- PH1001T: Engineering Physics (Cyber Security). 3 Credits.
- PH1801T: Engineering Physics Lab (Cyber Security). 2 Credits.
- PH1001T: Engineering Physics (Internet of Things). 3 Credits.
- PH1801T: Engineering Physics Lab (Internet of Things). 2 Credits.
2023
- PH1001T: Engineering Physics (Cyber Security). 3 Credits.
- PH1801T: Engineering Physics Lab (Cyber Security). 2 Credits.
- PH1001T: Engineering Physics (Internet of Things). 3 Credits.
- PH1801T: Engineering Physics Lab (Internet of Things). 2 Credits.
2022
- PH1001T: Engineering Physics (Cyber Security). 3 Credits.
- PH1801T: Engineering Physics Lab (Cyber Security). 2 Credits.
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