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Research Publications

2019.

1. Subrata Ghosh and Trilok Singh*, Role of ionic liquids in organic-inorganic metal halide perovskite solar cells efficiency and stability, Nano Energy 63 (2019) 103828.  https://doi.org/10.1016/j.nanoen.2019.06.024. 06/2019.

2. Ashish Kulkarni and Trilok Singh*, Bismuth and Antimony Based Perovskite, Perovskite-Like, and Non-Perovskite Materials for Lead-Free Perovskite, 269-297, Perovskite Solar Cells Properties, Applications, and Efficiency, 2019, NOVA Science Publishers, USA (Book Chapter).
https://novapublishers.com/shop/perovskite-solar-cells-properties-application-and-efficiency/

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2018.

1. Trilok Singh*, Masashi Ikegami and Tsutomu Miyasaka, Ambient Fabrication of 126 μm Thick Complete Perovskite Photovoltaic Device for High Flexibility and Performance, ACS Applied Energy Materials, 12 (2018) 6741-6747.  DOI: 10.1021/acsaem.8b01623, 2018/12.

2. Subrata Ghosh and Trilok Singh*, A paradigm shift in organic-inorganic hybrid lead halide perovskite solar cell efficiency and stability, News Letter, Semiconductor Society of India, September 2018 edition. 

Prior to IIT Kharagapur

2018.

1. Trilok Singh*, Senol Oez, Alexander Sasinska, Robert Frohnhoven, Sanjay Mathur, Tsutomu Miyasaka, Sulfate-assisted interfacial engineering for high yield and efficiency of triple cation perovskite solar cell with alkali-doped TiO2 electron transporting layers, Advanced Functional Materials,2018, 28, 1706287. (*Corresponding Author) (Impact factor= 13.325)

2. Ashish Kulkarni, Trilok Singh, Ajay K. Jena, Peerathat Pinpithak, Masashi Ikegami, Tsutomu Miyasaka, Vapour annealing controlled crystal growth and photovoltaic performance of bismuth triiodide embedded in mesostructured configurations, ACS Applied Materials and Interfaces, 2018, 10(11) 9547. (Impact factor= 8.097)

3. Trilok Singh*, Tsutomu Miyasaka, Stabilizing the efficiency beyond 20% with mixed cation perovskite solar cell fabricated in ambient air under controlled humidity, Advanced Energy Materials, 2018, 8, 1700677. (Impact factor= 21.875)

2017.

 4. Trilok Singh*, Yosuke Udagawa, Masashi Ikegami, Hideyuki Kunugita, Kazuhiro Ema and Tsutomu Miyasaka, Tuning of perovskite solar cell performance via low-temperature brookite scaffolds surface modifications, APL Materials 5 (2017) 7. (Impact factor= 4.335)

5. Ashish Kulkarni, Trilok Singh*, Masashi Ikegami and Tsutomu Miyasaka, Tuning the morphology of bismuth-based lead-free perovskite (CH3NH3)3Bi2I9 solar cells by solvent engineering technique, RSC Advances,7(2017) 9456. (Impact factor= 3.108)

6. Alexander Sasinsika, D. Bialuschewski, I. M. Mazharul, Trilok Singh, Meenal Deo, Sanjay Mathur, Experimental and theoretical insights into influence of hydrogen and nitrogen plasma on the water splitting performance of ALD grown TiO2 thin films J. Physical Chemistry C, 121 (29) (2017) 15538-15548. (Impact factor= 4.691)

2016.

7. Trilok Singh*, Jai Singh and Tsutomu Miyasaka, Role of metal oxide electron-transport layer modification on the stability of high performing perovskite solar cells, ChemSusChem. 9 (2016)2559-2566. (Impact factor= 7.226)

8. Trilok Singh*, Ashish Kulkarni, Masashi Ikegami, Tsutomu Miyasaka, Effect of electron transporting layer on bismuth-based lead-free perovskite (CH3NH3)3Bi2I9 for photovoltaic applications, ACS Applied Materials and Interfaces, 8 (2016) 14542–14547. (Impact factor= 8.0917)

9. Trilok Singh*, Tsutomu Miyasaka, High performance perovskite solar cell via multi-cycle low temperature process of lead acetate precursor solutions, Chemical Communications, 52 (2016), 4784– 4787. (Impact factor= 6.319)

10. Senol Öz, Jan-Christoph Hebig, Eunhwan Jung, Trilok Singh, Ashish Lepcha, Selina Olthof, Jan Flohre, Yajun Gao, Raphael German, Paul H.M. van Loosdrecht, Klaus Meerholz, Thomas Kirchartz, Sanjay Mathur, Zero-dimensional (CH3NH3)3Bi2I9 perovskite for optoelectronic applications, Solar Energy Materials and Solar Cells, 158 (2016) 195-201. (Impact factor= 5.018)

2015.

11. Trilok Singh, Ralf Mueller, Jai Singh and Sanjay Mathur, Tailoring of surface states in WO3 photoanodes for efficient water splitting, Applied Surface Science, 347 (2015) 448-453. (Impact factor= 4.439)

12. Trilok Singh, Tessa Leuning, Thomas Lehnen, and Sanjay Mathur, Atomic layer deposition processed MOx for solar water splitting prospects and challenges, J. Vacuum Science and Technology A, 33 (1) (2015) 010801. (Impact factor= 1.947)

13. Alexander Sasinska#, Trilok Singh#, Shuangzhou Wang and Sanjay Mathur, Enhanced photocatalytic performance of ALD grown TiO2 thin films via hydrogenation, J. Vacuum Science and Technology A, 33 (1), (2015) 01A152. (# First author equal contribution) (Impact factor= 1.947)

14. Ashish Kumar, Parmod Kumar, Kaushal Kumar, Trilok Singh, R Singh, K Asokan, D Kanjilal, Role of growth temperature on the structural, optical and electrical properties of ZnO thin films, J. Alloys and Compounds, 649 (2015) 1205-1209. (Impact factor= 3.779) 15. Trilok Singh, Shuangzhou Wang, Nabeel Aslam, Hehe Zhang, Susanne Hoffmann-Eifert, Sanjay Mathur, Atomic Layer Deposition of transparent VOx thin films for resistive switching applications, Chemical Vapor Deposition 20 (2014) 1-7. (Impact factor= 2.227)

2014.

16. Trilok Singh, Thomas Lehnen, Tessa Leuning, D.R. Sahu and Sanjay Mathur, “Thickness dependent fluctuations in structural, optical and electrical properties of ALD grown ZnO films, Applied Surface Science 289 (2014) 27-32. (Impact factor= 4.439)

17. Andreas Mettenbörger#, Trilok Singh#, Aadesh P. Singh, Tommi T. Järvi, Michael Moseler, Martin Valldor and Sanjay Mathur, Plasma-chemical reduction of Iron oxide photoanodes for efficient solar hydrogen production, International Journal of Hydrogen Energy 39 (2014) 4828- 35. (# First author equal contribution) (Impact factor= 4.229)

18. Sudheer Kumar, Vipin Kumar, Trilok Singh and R. Singh, The effect of deposition time on the structural and optical properties of β-Ga2O3 nanowires grown using CVD technique J. Nanoparticle Research, 16 (2014) 2189. (Impact factor= 2.127)

19. Naresh Kumar, Trilok Singh, 2.50 Gbit/s optical CDMA over FSO communication system, Optik - International Journal for Light and Electron Optics, 125 (2014) 4538. (Impact factor = 0.769)

20. Ashish Kumar, Trilok Singh, Mukesh Kumar, R. Singh, Sulphide passivation of GaN based Schottky diodes, Current Applied Physics 14 (2014) 491-95. (Impact factor= 2.058)

2013-2011.

21. Trilok Singh*, D. K. Pandya and R. Singh, Effect of supporting electrolytes on the growth and optical properties of electrochemically deposited ZnO nanorods, Optical Materials, 35 (2013) 1493-1497. (Impact factor= 2.320)

22. Trilok Singh*, D.K. Pandya and R. Singh, Concentration dependent structural and optical properties of electrochemically grown ZnO thin films and nanostructures, Applied Surface Science, 270 (2013) 578-583. (Impact factor= 4.439)

23. Trilok Singh*, D. K. Pandya and R. Singh, Surface plasmon driven enhancement in UV-emission of electrochemically grown Zn1-xCdxO nanorods using Au nanoparticles, J. Alloys and Compounds, 552 (2013) 294-298. (Impact factor= 3.779)

24. Trilok Singh*, D. K. Pandya and R. Singh, Surface plasmon enhanced bandgap emission of electrochemically grown ZnO nanorods using Au nanoparticles, Thin Solid Films 520 (2012) 140- 143. (Impact factor= 1.867).

25. Trilok Singh*, Jai singh, Atomic Layer Deposition of transparent conducting oxides, Reviews in Advanced Sciences and Engineering, 2 (2013) 313-323.

26. Jai Singh, P. Kumar, D. J. Late, Trilok Singh, M. A. More, R. S. Tiwari, K. S. Hui, K. N.Hui and O. N. Srivastava, Optical and field emission properties in different nanostructures of ZnO, Digest Journal of Nanomaterials and Biostructures, 7 (2012) 525-536. (Impact factor= 0.836)

27. Trilok Singh*, D. K. Pandya and R. Singh, Synthesis of cadmium oxide doped ZnO nanostructures using electrochemical deposition, J. Alloys and Compounds 509 (2011) 5095- 5098. (Impact factor= 3.779)

28. Trilok Singh*, D. K. Pandya and R. Singh, Electrochemical deposition and characterization of elongated CdO nanostructures, Materials Science and Engineering B. 176 (2011) 945-949. (Impact factor = 3.316)

29. Trilok Singh*, D. K. Pandya and R. Singh, Growth of CdO and ZnCdO-based novel nanostructures using electrochemical deposition, International Journal of Nanoscience 10 (2011) 827-831. (SJR = 0.18)

30. Trilok Singh*, D. K. Pandya and R. Singh, Template assisted growth of Zinc oxide-based nanowires by electrochemical deposition, Journal of Nano-and Electronic Physics 3 (2011) 146-150. (SJR = 0.24)

31. Trilok Singh*, D. K. Pandya and R. Singh, Annealing studies on the structural and optical properties of electrodeposited CdO thin films, Materials Chemistry and Physics 130 (2011) 1366-1371. (Impact factor = 2.210)

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CONFERENCE PROCEEDINGS

1. E.C. Linganiso, N. J. Coville, S. D. Mhlanga, B.W. Mwakikunga, Trilok Singh, T. Fischer, S. Mathur, S., Z. L. Linganiso, T. E. Motaung, Novel Ni3S2 based room temperature humidity sensor and potential breath analyzer, Proceedings of IEEE Sensors 2019, October 2019, pp 1-4.

2. M. Govender, B. W. Mwakikunga, S. Mathur, Trilok Singh, A. Kaouk, Y. Gönüllü, A. G.J. Machatine and H. W. Kunert, Selective room-temperature sensing of NO2 by WO3 film/Graphene layers, SENSORS, 2014 IEEE, 301-314.

3. Trilok Singh, T. Fischer, J. Singh, S. K. Gurram and S. Mathur, Plasma Enhanced CVD of transparent and conductive Tin oxide films, Nanostructured Materials and Nanotechnology VII: Ceramic Engineering and Science Proceedings 34, Issue 7 (2013) 99-105

4. B. Mwakikunga, Trilok Singh I. Giebelhaus, T. Fischer, A. Lepcha, E. E. Gad, F. Guido and S. Mathur, Development of single-few-and multiple nanowires gas-sensor two terminal device on ceramic substrates and characterization by impedance spectroscopy, Nanostructured Materials and Nanotechnology VII: Ceramic Engineering and Science Proceedings, 34, 2013, 149-156.

5. B. Mwakikunga, S. S. Ray, M. Mokwena, J. Dewar, I. Geibelhaus, Trilok Singh, T. Fischer and S. Mathur, Tin dioxide nano-wire device for sensing kinetics of acetone and ethanol towards diabetes monitoring, Sensors, 2013 IEEE, (2013) 1-4.

6. Trilok Singh, R. Scholz, S. H. Christiansen, U. Goesele and R. Singh, Surface exfoliation in ZnO by hydrogen implantation and its smoothening by high temperature annealing, Physica Status Solidi C., 7, 2010, 444-447.

7. Trilok Singh*, D. K. Pandya and R. Singh, Growth of ZnO based ternary nanostructures by electrodeposition, AIP Proceedings 1313, 2010, 115-117.

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BOOKS/BOOK CHAPTERS

1. Thomas Fischer, Aadesh P. Singh, Trilok Singh, Francisco Hernández Ramírez, Daniel Prades and Sanjay Mathur, “Metal oxide Nano-architectures and Heterostructures for Chemical Sensors”, Metal Oxide Nanomaterials for Chemical Sensors, Springer (2013) 397-438. (Book chapter)

2. Sanjay Mathur, Trilok Singh, Mahboubeh Maleki and, Thomas Fischer, Plasma-Assisted Surface Treatments and Modifications for Biomedical Applications”, Biomaterials Surface Science, Wiley (2013) 375-408. (Book Chapter)

CONFERENCE PRESENTATIONS:

Presented more than 40 papers (oral and poster) in various international conferences and also delivered Four Invited talks (American ceramic Society, Daytona Beach, 2014, MRS Fall Meeting Boston 2016, IWPSD 2017, New Delhi, ISEPD2018, Jaipur 2018).

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