Gender
Male
Location
Coimbatore, tamilnadu.
Birthday:
October 12
I am...
Chemist, Physicist
My research field or area of interest innanotechnology
1. Synthesis of nanostuctural materials emphasis mainly on colloidal chemical synthesis, Solvothermal synthesis, sol-gel technique, pyrolysis, melt-quenched glass nano composite. Fabrication of nanostructured materials by simiple recrystalisation from aqueous or organic solution. 2. Self-assembly of nanomaterials in different hierarchical structure by the templating action of different organic/inorganic compound. 3. Nanoelectronics: [a] Nanocomposite based memory device: Developing organic–inorganic hybrid nanostructured devices for memory application. RAM and ROM application of electrostatically assembled nanostructured devices. Investigation of electrical bistabilities of monolayered devices of organically capped Nanocrystals by mercury (Hg) probe and STM. [b] Nanorectifier: Fabrication of rectifying nanorods by chemical route via doping concentration variation. Synthesis of electrostatically attached rectifying pn and np nanoconjugate, investigation on their rectification properties. [c] Solar cell: Fabrication of Carbonnanotube based donor-accepter type organic solar cell. Studies on DSSC based on aligned ZnO and organic dye. 4. Carbonnanotubes: Functionalisation of carbonnanotubes (CNT), synthesise of carbonnantube composite materials, studies of property modification on doping CNT in different composite materials.. 5. Polymer nanocomposite, developing new properties by generating interaction of nanostructur with polymer matrics. 6. Material characterization by XRD, FTIR, SEM, TEM, STM, EDXA, DSC, DTA-TGA, DMA and rheological characterization. 7. Optical and Electrical characterization by absorption and emission spectroscopy, reflectance and transmission spectroscopy, current-voltage, impedance spectroscopy, measurement of thermoelectric properties, magnetoresistance, temperature variation of electrical properties. 8. Green synthesis of naomaterials by glucose and starch. 9. Fabrication of stimuli responsive metal coordinated polymeric gel, Investigation of light and field emission properties of the metallo gel. 10. Fabrication of metal co-ordinated polymeric nanostructures and their application on electronic & optoelectronic devices. 11. Synthesise of nanostructured magnetic materials and their spintronics application
Interest in...
Fabrication of nanomaterials and devices.
Publication list
2015 78. Cation Substitution of Solution-Processed Cu2ZnSnS4 Thin Film Solar Cell with over 9% Efficiency; Z. Su, J. M. R. Tan, X. Li, X. Zeng, S. K. Batabyal and L. H. Wong; Advanced Energy Materials, 2015 Early View (Online Version of Record published before inclusion in an issue); DOI: 10.1002/aenm.201500682. 77. Sputter grown sub-micrometer thick Cu2ZnSnS4 thin film for photovoltaic device application; G. K. Dalapati, , S. K. Batabyal, , S. M.-Panah, Z. Su, A. Kushwaha, T. I. Wong, H. F. Liu, T. Bhat, A. Iskandera, Y.-F. Lim, L. H. Wong, S. Tripathy, D. Chi; Materials Letters ; Available online 18 July 2015 (In Press, Accepted Manuscript); doi:10.1016/j.matlet.2015.07.089 76. Influence of chiral ligands on the gel formation of a Mg(II) coordination polymer; W. L. Leong, S. K. Batabyal, S. Kasapis and J. J. Vitta , Cryst Eng Comm, 2015, Advance Article (DOI: 10.1039/C5CE00662G). 75. Antimony and antimony oxide @ graphene oxideobtained by the peroxide route as lithium batteryanode; D. Y.W. Yu, S. K. Batabyal, J. Gun, S. Sladkevich, A. A. Mikhaylov, A G. Medvedev, O. Lev and P. V. Prikhodchenko, Main Group Met. Chem. 2015; x(x): xxx–xxx, (Accepted for publicationDOI: 10.1515/mgmc-2015-0001). 74. Effect of Zn(O,S) buffer layer thickness on Charge carrier relaxation dynamics of CuInSe2 solar Cell; J. Sun, V. Nalla, M. Nguyen, Y. Ren, K. Tai, S. Y.Chiam, Y. Wang, H, Sun, , N.Zheludev, S. K. Batabyal and L.H.Wong, Solar Energy, 2015, 115, 396-404. (With corresponding author ship). 73. Synthesis of Cu(In,Ga)(S,Se)2 thin films, using a non-vacuum aqueous spray-pyrolysis approach, and their solar cell efficiency of 10.5%; Md. A. Hossain; Z.Tianliang; L. K.Keat, R. R. Prabhakar, L. Xianglin; S. K. Batabyal, S. G. Mhaisalkar and L. H. Wong J. Mater. Chem.A, 2015,3, 4147-4154(With inside cover page). 72. TiO2 nanotube arrays based flexible perovskite solar cells with transparent carbon nanotube electrode; Xiaoyan Wang, Zhen Li, Wenjing Xu, Sneha A. Kulkarni, Sudip K. Batabyal, Sam Zhang, Anyuan Cao, Lydia Helena Wong Nanoenergy, 2015, 11, 728-735. 71. ZnS buffer layer for Cu2ZnSn(SSe)4 monograin layer solar cell; M. Nguyen, K. Ernits, K. F. Tai, C. F. Ng, S. S. Pramana, W. A. Sasangka, S. K. Batabyal, T. Holopainen, D. Meissner and L. H.Wong, Solar Energy, 2015, 111, 344-349. 70. Formation of (CuInSxSe1-x)2 microcrystals from CuInSe2 nanoparticles; M. X. Wang, S. K. Batabyal, H. M. Lim, Z. Li and Y. M. LamJournal of Alloys and Compounds, 2015,618, 522–526.(With corresponding author ship) 2014 69. Photophysical investigation of charge recombination in CdS/ZnO layers of CuIn(S,Se)2 Solar Cell; V. Nalla, J. C. W. Ho, S. K. Batabyal, Y. Wang, A. I. Y. Tok, H. Sun , L. H. Wong and N.Zheludev, RSC Adv., 2014,4, 58372-58376. 68.Facile Water-based Spray Pyrolysis of Earth-Abundant Cu2FeSnS4 Thin Films as an Efficient Counter Electrode in Dye-Sensitized Solar Cells; R. R. Prabhakar, N. H. Loc, M. H. Kumar, P. Boix, R. A. John, S. K. Batabyal and L. H. Wong,ACS Appl. Mater. Interfaces, 2014, 6 (20), 17661–17667.(With corresponding author ship) 67. Welding of CuS and In2S3 nanosheets at low temperature: Formation of CuIn5S8 photoactive nanocrystals; H. M. Lim, J. Y. Tan, S. K. Batabyala, S.Magdassi, S. G. Mhaisalkar and L. H. Wong,ChemSusChem2014, 7, 3290 – 3294 (back coverpage). 66. Laminated Carbon Nanotube Networks for Metal electrode-free Efficient Perovskite Solar Cells; Z. Li, K. S. Avinash, P. P. Boix, E. Shi, A. Cao, K. Fu, S. K. Batabyal, J. Zhang, Q. Xiong, L. H. Wong, N. Mathews and S. G. Mhaisalkar ACS Nano, 2014, 8 (7), pp 6797–6804. 65. Nanocrystalline tin disulfide coating of reduced graphene oxide produced by the peroxostannate deposition route for sodium ion battery anodes; P. V. Prikhodchenko, D. Y.W. Yu, S. K. Batabyal, V. Uvarov,J. Gun, S. Sladkevich, A. A. Mikhaylov, A. G. Medvedeva, and O. Lev;J. Mater. Chem. A, 2014,2, 8431-8437. 64. Spray pyrolysis of CuIn(S,Se)2 solar cells with 5.9% efficiency: a method to prevent Mo oxidation in ambient atmosphere; J. C.W. Ho, T. Zhang, K. K. Lee, S. K. Batabyal, A. I. Y. Tok, and L. H. Wong;ACS Appl. Mater. Interfaces, 2014, 6 (9), pp 6638–6643. 63. Bulk antimony sulfide with excellent cycle stability as next-generation anode for lithium-ion batteries D. Y.W. Yu, S. K. Batabyal; Scientific Report (Scientific Reports, Volume: 4,Article number:4562 doi:10.1038/srep04562).(With corresponding author ship) 62. Electrodeposition of single phase CuInSe2 for solar energy harvesting: role of different acidic additives J Sun, S. K Batabyal, P. D Tran and L. H Wong;Journal of Alloys and Compounds, 591, 2014, 127-131.(With corresponding author ship) 61. Novel anode for Na-ion batteries with excellent cycle and rate capability: Sb2S3 nanoparticle decorated graphene composite; D. Y.W. Yu, P. V. Prikhodchenko, C. W. Mason, S. K. Batabyal , J. Gun, S.Sladkevich, A. Medvedev and O. Lev; Nature Communication4, Article number: 2922, doi:10.1038/ncomms3922. 60.Self-assembled ultrathin anatase TiO2 nanosheets with reactive (0 0 1) facets for highly enhanced reversible Li-storage.L. H. Nguyen, V. Aravindan, S. A. Kulkarni, F. Yanan, R. R. Prabhakar, S. K. Batabyal and Srinivasan Madhavi; ChemElectroChem2, 2014, , 539 – 543 2013 59.A ZnO nanowire resistive switch; K. R. G. Karthik, Rajiv Ramanujam Prabhakar, L. Hai, Sudip K. Batabyal, Y. Z. Huang and S. G. Mhaisalkar; Appl. Phys. Lett, 103, 2013, 123114. 58. Nanocrystalline Copper Indium Selenide (CuInSe2) Particles for Solar Energy Harvesting; M. Wang, S. K. Batabyal, Z. Li , D. Li , S. G. Mhaisalkar and Y. M. Lam; RSC Advances,3, 2013, 9829(With corresponding author ship). 57. Chemical welding of binary nanoparticles: room temperature sintering of CuSe and In2S3 nanoparticles for solution-processed CuInSxSe1-x solar cells.;H. M. Lim, S. K. Batabyal, S. S. Pramana, L. H. Wong, S. Magdassi and S. G. Mhaisalkar; Chemical Communication,49, 2013, 5351 (with equally contributing first author)(With front cover page). 56. Low Temperature Synthesis of Wurtzite Zinc Sulfide (ZnS) Thin Film by Chemical Spray Pyrolysis.X. ZENG , S.Pramana , S. K.Batabyal , S. G. Mhaisalkar , X. Chen and K.B. Jinesh; Phys. Chem. Chem. Phys, 15, 2013,6763. 55. Nanoparticle-Induced Grain Growth of Carbon-Free Solution-Processed CuIn(S,Se)2 Solar Cell with 6% Efficiency.Y. Cai, J. C. W. Ho, S. K. Batabyal, W. Liu , Y. Sun , S. G. Mhaisalkar and L. H. Wong; ACS Applied Materials & Interfaces; 5, 2013, 1533-1537 (With corresponding author ship). 54. Synthesis of Cu2SnSe3 nanocrystals for solution processable photovoltaic cells; M. Ahmadi, S. S. Pramana, S. K. Batabyal, C. Boothroyd, S. Mhaisalkar, Y. M. Lam; Inorganic Chemistry52, 2013, 1722–1728. 53. In-situ photo-assisted deposition of MoS2 electrocatalyst onto Zinc-Cadmium-Sulphide nanoparticle surface to construct efficient photocatalyst for hydrogen generation; M. Nguyen, P. D. Tran, S. S. Pramana, R. L. Lee, S. K. Batabyal, N. Mathews,L. H. Wong,M. Graetzel, Nanoscale, 5, 2013, 1479-82. 52. Nanoclay gelation approach towards improved dye-sensitized solar cell efficiencies: an investigation of charge transport and shift in TiO2 conduction band; X. Wang, S. A Kulkarni, B. I. Ito, S. K. Batabyal, K. Nonomura, C. C. Wong, M. Grätzel, S. G Mhaisalkar, S. Uchida; ACS Applied Materials & Interfaces.; 5, 2013, 444-450. 2012 51. Conversion of Hydroperoxoantimonate Coated Graphenes to Sb2S3@Graphene for a Superior Lithium Battery Anode; P. V. Prikhodchenko, J. Gun, S. Sladkevich, A. A. Mikhaylov, O. Lev, Y. Y. Tay, S. K. Batabyal, and Denis Y. W. Yu, Chemistry of Materials, 24, 2012, 47504757. 50. Optical and Electrical Properties of Wurtzite Copper Indium Sulfide Nanoflakes; J. C. W. Ho, S. K. Batabyal, S. S. Pramana, J. Lum, V. T. Pham, D. Li, Q. Xiong, A. I. Y. Tok, and L. H. Wong; Mater. Express2, 2012, 344-350 (With corresponding author ship) 49. Selective co-sensitization approach to increase photon conversion efficiency and electron lifetime in dye-sensitized solar cells; L. H. Nguyen, H. K. Mulmudi, D. SABBA, S. A. Kulkarni , S. K. Batabyal, K. Nonomura,M.Gratzel and S. G. Mhaisalkar; Phys. Chem. Chem. Phys., 14, 2012,16182-16186. (With front cover page) 48. Novel assembly of MoS2 electrocatalyst onto silicon nanowire array electrode to construct photocathode composed of Earth-abundant elements for Hydrogen generation; P. D. Tran, S. S. Praman, V. S. Kale, M. Nguyen, S. Y. Chiam, S. K. Batabyal , L. H. Wong , J. Barber and J. S. C. Loo; Chemistry - A European Journal,18, 2012, 13994. 47. Solution processed CuZn1-xAlxS2: a new memory material with tunable electrical bistability; K.B. Jinesh, S. K.Batabyal, R. D. Chandra and Y. Huang;J. Mater. Chem., 22, 2012,20149-20152. (with equally contributing first author). 46. Enhancing the photocatalytic efficiency of TiO2 nanopowders for H2 production by using non-noble transition metal co-catalysts; P. D. Tran , L. Xi , S. K. Batabyal , L. H. Wong , J. Barber and J. S. C. Loo ; Phys. Chem. Chem. Phys., 14, 2012, 11596-11599 45. Co3O4 Decorated Hematite Nanorods as an Effective Photoanode for Solar Water Oxidation. L. Xi, P. D. Tran, S. Y. Chiam, P. S. Bassi, W. F. Mak, H. K. Mulmudi, S. K. Batabyal, J. Barber, S. C. J. Loo and Lydia Helena Wong; J. Phys. Chem. C, 116, 2012, 13884–13889. 44. Metal/metal sulfide functionalized single-walled carbon nanotubes: FTO-free counter electrodes for dye sensitized solar cells; L. Zhang, H. K. Mulmudi, S. K. Batabyal, Y. M. Lam and S. G. Mhaisalkar; Phys. Chem. Chem. Phys,14, 2012, 9906-9911.(With corresponding author ship)( Withfront cover page) 43. A cuprous oxide–reduced graphene oxide (Cu2O–rGO) composite photocatalyst for hydrogen generation: employing rGO as an electron acceptor to enhance the photocatalytic activity and stability of Cu2O; P. D. Tran , S. K. Batabyal , S. S. Pramana , J. Barber , L. H. Wong and S. C. J. Loo; Nanoscale, 4, 2012, 3875-3878 42. Graphene oxide organogel electrolyte for quasi solid dye sensitized solar cells.J. Gun, S. A Kulkarni, W. Xiu, S. K Batabyal, S. Sladkevich, P. V Prikhodchenko, V. Gutkin, O. Lev; Electrochemistry Communications; 19, 2012, 108-110. (With corresponding author ship) 41. Morphology and stoichiometry control of hierarchical CuInSe2/SnO2 nanostructures by directed electrochemical assembly for solar energy harvesting; J. Sun, C. Sun, S. K. Batabyal, P. D. Tran, S. S. Pramana, L. H. Wong, S. G. Mhaisalkar; Electrochemistry Communications, 15, 2012, 18-21. (With corresponding author ship) Before 2011 40. Group V nanostructured chalcogenides. C. Basu, S. K. Batabyal, A. R. Das and G. S. Sanyal; Encyclopedia of Nanoscience and Nanotechnology [Invited review articles, 15 (1), 2011, 37-56. 39. Solution processed transition metal sulfides: application as counter electrodes in dye sensitized solar cells (DSCs); H. K. Mulmudi, S. K. Batabyal, M. Rao, R. R. Prabhakar, N. Mathews, Y. M. Lam and S. G. Mhaisalkar; Phys. Chem. Chem. Phys., 13, 2011, 19307-19309. (With corresponding author ship) 38. Thermoelectric Power of Nanostructure Bismuth Telluride; D. Banerjee, K. Chatterjee, A. Pal, N. R. Bandyopadhyay, S. K. Batabyal, C. Basu, G. S. Sanyal and A. R. Das; FIZIKA A19, 2010, 183-190. 37. Fluorescent Coordination Polymeric Gel from Tartaric Acid Assisted Self-Assembly; S. K. Batabyal, W. L. Leong, and J. J. Vittal; Langmuir; 26, 2010, 7464-7468. 36. Nonlinear optical and exciton properties of CuInS2 nanocrystals; N. Venkatram, S. K. Batabyal, L. Tian, J. Wei and J. J. Vittal; Appl. Phys. Lett. 95, 2009, 201109. [Highlighted in Virtual Journal of Ultrafast Science, volume 8, issue 12] 35. Mesoscale selfassembly of Zinctellurite nanoclusters; S. K. Batabyal, N. Venkatram, J. Wei and J. J. Vittal; Crystal Growth and Design, 9(11), 2009, 4951-4956. [Front Cover Page]. 34.Phase Selective Synthesis of CuInS2 Nanocrystals; S. K. Batabyal, L. Tian, N. Venkatram, J. Wei and J. J. Vittal; J. Phys. Chem. C, 113(33), 2009, 15037-15042. 33. Coordination Polymeric Nanofibers and their Field-Emission properties; S. K. Batabyal, A. Peedikakkal, S. Ramakrishna, C. Sow, J. J. Vittal. Macromolecular Rapid Communications, 30, 2009, 1356-1361. 32. Fluorescent Magnesium (II) Coordination Polymeric Hydrogel; W. Leong, S. K. Batabyal, S. Kasapis, J. J. Vittal; Chemistry A European Journal. 14, 2008, 8822-8829. [Front Cover Page]. 31. Axial-junction nanowires of Ag2Te - Ag as a memory element; S. K. Batabyal, and J. J. Vittal; Chemistry of Materials 20 (18), 2008, 5845–5850. [Highlighted in weekly news “ChemInform” volume 39, issue 50] 30. Fluorescence enhancement of coordination polymeric gel; W. Leong, A. Tam, S. K. Batabyal, L. Koh, S. Kasapis, V. Yam and J. J. Vittal; Chem. Commun., 2008, 3628 [InsideFront Cover Page] Enlisted in The most popular ChemComm articles in the month of August 2008. 29. Organization of organic molecules with inorganic nanoparticles: Hybrid nanodiodes. K. Mohanta, S. K. Batabyal and A. J. Pal; Advanced Functional Materials 18, 2008, 687-693. 28. Hierarchical assembly of carbon nanotubes-liquid crystal nanocomposite; S. Kundu, S. K. Batabyal, P. Nayek and S. K. Roy; J. Nanoscience and Nanotechnology 8, 2008, 1735-1740. 27. Electrical Bistability in Zinc Oxide Nanoparticle-Polymer Composites. B. Pradhan, S. K. Majee, S. K. Batabyal, A. J. Pal; J. Nanoscience and Nanotechnology 7, 2007, 4534–4539. 26. A bit per particle: CdSequantum dots as memory elements; B. Das, S. K. Batabyal and A. J. Pal; Advanced materials. 19, 2007, 4172-4176. 25. pn-Junction Rectifiers based on p-ZnO and n-ZnO Nanoparticles; K. Mohanta, S. K. Batabyal and A. J. Pal, Chem of Matter. 19, 2007, 3662-3666. 24. Role of TiO2 nanoparticles on the photoinduced intramolecular electron transfer reaction within a novel synthesized donor-acceptor system; S. K. Pal, S. Bhattacharaya, S. K. Batabyal, T. K. Pradhan, T. Ganguly; J. Photochem. andPhotobio. A: Chemistry.189, 2007, 86-93. [Selected as TOP 25 Hottest Article for April-June 2007 in the journal website,http://top25.sciencedirect.com/subject/chemical-engineering/5/journal/journal-of-photochemistry-and-photobiology-a-chemistry/10106030/archive/12 ] 23. Green Chemical Synthesis of Silver Nanowires and Microfibers Using Starch. S. K. Batabyal, C. Basu, A. R. Das, and G. S. Sanyal; Journal of Biobased Materials and Bioenergy. 1, 2007, 143–147. 22. Vertically aligned ZnO nanowire arrays in Rose Bengal-based dye-sensitized solar cells; B. Pradhan, S. K. Batabyal, A. J. Pal; Solar Energy Materials & Solar Cells. 91, 2007, 769. [Selected as TOP 25 Hottest Article for July - September 2007 in the journal website] http://top25.sciencedirect.com/subject/energy/11/journal/solar-energy-materials-and-solar-cells/09270248/archive/13/ 21.Organic photodetectors with electrically bistable electron-acceptors and nanotubes; S. Sahu, S. K. Batabyal, and A. J. Pal; Applied Physics Letters. 90, 2007, 142112. 20. Electronically interacting carbon nanotube based composite systems for electrical bistability and memory applications; B. Mukherjee, S. K. Batabyal, and A. J. Pal; Advanced Materials.19, 2007, 717. 19. In-Situ Synthesis of Soluble Poly(3-hexylthiophene)/Multiwalled Carbon Nanotube Composite: Morphology, Structure, and Conductivity; B. Kuila, S. Malik, S. K. Batabyal, and A. K. Nandi; Macromolecules. 40, 2007, 278-287. 18. Nanostructures of Bismuth Sulphide: Synthesis and Electrical Properties; S. K. Batabyal, C. Basu, A. R. Das, and G. S. Sanyal; J. Nanoscience and Nanotechnology 7, 2007, 565–569 17. Rectifying junction in a single ZnO vertical nanowire; B. Pradhan, S. K. Batabyal, A. J. Pal; Applied Physics Lett, 89, 2006, 233109. Enlisted in MOST DOWN LOADED ARTICLE in DEC 2006 in Journal website. 16. Electrical Bistability in Electrostatic Assemblies of CdSe Nanoparticles; K. Mohanta, S. K. Majee, S. K. Batabyal, and A. J. Pal; J. Phys. Chem. B, 110 (37), 2006, 18231 -18235. 15. Acoustic study of nano-crystal embedded PbO-P2O5 glass; S. K. Batabyal, A. Paul, P. Roychoudhury, and C. Basu; Bulletin of Materials Science 29 (4), 2006, 357-363. 14. Preparation and Characterization of Silver−Poly(vinylidene fluoride) Nanocomposites : Formation of Piezoelectric Polymorph of Poly(vinylidene fluoride); S. Manna, S. K Batabyal and A. K. Nandi; J. Phys. Chem. B110 (25), 2006, 12318-12326. 13. The effect of Ag2O doping and crystallization on the properties of lead–vanadate glass; S. K. Batabyal, A. Paul, P. Roychoudhury, C. Basu; Journal of Non-Crystline Solid 352, 2006, 2791-2796. 12. Electrical Bistability and Memory Phenomenon in Carbon Nanotube-Conjugated Polymer Matrixes; B. Pradhan, S. K. Batabyal, and A. J. Pal; J. Phys. Chem. B 110, 2006, 8274. 11. Morphological Modifications of Selenium by Recrystallization of its Aqueous Complex Solutions; S. K. Batabyal, C. Basu, A. R. Das, and G. S. Sanyal; J. Nanoscience and Nanotechnology 6, 2006, 2129-2134. 10. Functionalized carbon nanotubes in donor/acceptor-type photovoltaic devices; B. Pradhan, S. K. Batabyal, A. J. Pal; Appl. Phys. Lett. 88, 2006, 093106. 9. Studies on nanocrystalline Ag2Se; S. K Batabyal, C. Basu, A. R. Das, G. S. Sanyal, D. Banerjee and N. R. Bandyopadhyay; Materials and Manufacturing Processes, 21 (7), 2006, 694-697. 8. Morphological evolution of selenium micro-crystals; S. K. Batabyal, C. Basu, A. R. Das, and G. S. Sanyal; Crystal Research and Technology, 41, 2006, 652. 7. Nanorods of tellurium: synthesis and self-assembly; S. K. Batabyal, C. Basu, A. R. Das, and G. S. Sanyal; J. Nanoscience and Nanotechnology, 6, 2006, 719-725. 6. Solvothermal synthesis of bismuth selenide nanotubes; S. K Batabyal, C. Basu, A. R. Das and G. S. Sanyal;Materials letter, 60 (21-22), 2006, 2582-2585. 5. Preparation and photophysical properties of nanostructured 9-cyanoanthracene; S.K. Pal, S.K. Batabyal and T. Ganguly; Chemical Physics Letters. 406, 2005, 420–424 4. Micropatterns of Ag2Se nanocrystals; S. K. Batabyal, C. Basu, G. S. Sanyal and A. R. Das; Crystal Growth and Design, 4 (3), 2004, 509-511 3. Synthesis of Antimony selenide nanorods using Beta-Cyclodextrin; S. K. Batabyal, C. Basu, G. S. Sannyal and A. R. Das.; Materials Letters, 58, 2004, 169-171. 2. CdS embedded poly(3-hexyl thiophene) nanowire: Synthesis and characterization; S. Malik, S. K. Batabyal, C. Basu and A. K. Nandi; Journal of Materials Science Letters, 22, 2003, 1113-1115. 1. Acoustic and optical properties of (Li2O)0.2−x(Na2O)x(TeO2)0.8 glasses. P. Roychoudhury, S. K. Batabyal, A. Paul, S. Mukherjee, K. Goswami and C. Basu.; Journal of Applied Physics, vol-92 (7) 2002, 3530-3539
Researchgroup, Institute, University, School, Company name
Amrita Centre for Industrial Research and Innovation (ACIRI), Amrita University https://www.amrita.edu/
Researchgroup, Institute, Company, University, School webpage
https://sites.google.com/site/batabyal/
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