Advanced Nanomaterials Laboratory

Publications

Selected High Impact Journal [h-index 34, i-10 index:57]
[IF-Impact factor]

  1. Harnessing true capacitive activity of nitrogen-doped MXene through hydrogel assembly and theoretical understanding of the role of dopant sites.
    Amalika Patra,Pronoy Dutta,Mandira Das,Golam Masud Karima,Sujit Kumar Deba, SnehasishDasa,PriyamMukherjeea,SubhradipGhosh Uday Narayan Maiti,
    Carbon (2024) 119485 (IF: 10.5)
  2. Transient Electro-Graphitization of MOFs Affecting the Crystallization of Ruthenium Nanoclusters for Highly Efficient Hydrogen Evolution.
    Golam Masud Karim, Amalika Patra, Sujit Kumar Deb, Hemanta Upadhya, Snehasish Das, Priyam Mukherjee, Waleed Ahmad, Narad Barman, Ranjit Thapa, Neha V Dambhare, Arup Kumar Rath, Jaysri Das, Uttam Manna, Rajashri R. Urkude, Youngtak Oh, Uday Narayan Maiti,
    Advanced Functional Materials (2024) 2315460 (IF: 19)
  3. Activating Ion Channels in Collapsed Hydrogel Derived Densified MXene Films with Cellulose Nanofibers to Overcome the Areal Versus Volumetric Capacitance Trade-Off.
    Pronoy Dutta, Sujit Kumar Deb, Amalika Patra, Golam Masud Karim,Abhisek Majumder, Pradip Kumar, Parameswar Krishnan Iyer, Narayanan Padma, Uday Narayan Maiti,
    Small (2024) 2400119 (IF: 13.3)
  4. Bulk versus surface-limited polymer encapsulation: A current pulse-induced approach for confined polymer coating selectively over quasi-oriented MXene aerogel.
    Sujit Kumar Deb, Pronoy Dutta, Golam Masud Karim, Amalika Patra, Pranab Bera, Snehasish Das, Priyam Mukherjee, Kumaran Rengasamy, Angana Borbora, Uttam Manna, Venkatachalam Subramanian, Uday Narayan Maiti,
    Chemical Engineering Journal 484 (2024) 149617 (IF: 15.1)
  5. Ultra-fast electro-reduction and activation of graphene for high energy density wearable supercapacitor asymmetrically designed with MXene.
    Golam Masud Karim, Pronoy Dutta, Abhisek Majumdar, Amalika Patra, Sujit Kumar Deb, Snehasish Das, Neha V Dambhare, Arup K Rath, Uday Narayan Maiti,
    Carbon 203 (2023) 191-201 (IF:11.307)
  6. Electric Field Guided Fast and Oriented Assembly of MXene into Scalable Pristine Hydrogels for Customized Energy Storage and Water Evaporation Applications.
    Pronoy Dutta, Sujit Kumar Deb, Amalika Patra, Abhisek Majumdar, Golam Masud Karim, Chintak Kamalesh Parashar, Manoj Kumar Mohanta, Mohammad Qureshi, Uday Narayan Maiti,
    Advanced Functional Materials 32 (2022) 2204622 (IF: 19)
  7. Impact of Atomic Rearrangement and Single Atom Stabilization on MoSe2@NiCo2Se4 Heterostructure Catalyst for Efficient Overall Water Splitting.
    Abhisek Majumdar, Pronoy Dutta, Anirban Sikdar, Heehyeon Lee, Debasis Ghosh, Sambhu Nath Jha, Shilpa Tripathi, Yongtak Oh, Uday Narayan Maiti,
    Small 18 (2022) 2200622 (IF: 13.3)
  8. Freestanding MXene-hydrogels prepared via critical density-controlled self-assembly: high-performance energy storage with ultrahigh capacitive vs. diffusion-limited contribution.
    Pronoy Dutta, Amalika Patra, Sujit Kumar Deb, Anirban Sikdar, Abhisek Majumdar, Golam Masud Karim, Uday Narayan Maiti,
    Journal of Materials Chemistry A 9 (2021) 25013-25023 (IF: 14.511)
  9. Diffusion driven nanostructuring of metal–organic frameworks (MOFs) for graphene hydrogel based tunable heterostructures: highly active electrocatalysts for efficient water oxidation.
    Anirban Sikdar, Abhisek Majumdar, Abhijit Gogoi, Pronoy Dutta, Munu Borah, Soumen Maiti, Chiranjib Gogoi, K Anki Reddy, Youngtak Oh, Uday Narayan Maiti,
    Journal of Materials Chemistry A 9 (2021) 7640-7649 (IF: 10.7)
  10. Graphene aided gelation of MXene with oxidation protected surface for supercapacitor electrodes with excellent gravimetric performance.
    Pronoy Dutta, Anirban Sikdar, Abhisek Majumdar, Munu Borah, N Padma, Subhradip Ghosh, Uday Narayan Maiti,
    Carbon 169 (2020) 225-234 (IF:10.9)
  11. Recent advances in polymer and polymer composites for electromagnetic interference shielding: review and future prospects.
    Pradip Kumar, Uday Narayan Maiti,Anirban Sikdar, Tapas Kumar Das, Asheesh Kumar, V Sudarsan
    Polymer Reviews 59 (2019) 687-738 (IF:14.536 )
  12. Dopant-specific unzipping of carbon nanotubes for intact crystalline graphene nanostructures.
    Joonwon Lim, Uday Narayan Maiti, Na-Young Kim, Rekha Narayan, Won Jun Lee, Dong Sung Choi, Youngtak Oh, Ju Min Lee, Gil Yong Lee, Seok Hun Kang, Hyunwoo Kim, Yong-Hyun Kim, Sang Ouk Kim
    Nature Communications 7 (2016). (IF:14.7)
  13. Selective and Regenerative Carbon Dioxide Capture by Highly Polarizing Porous Carbon Nitride.
    Youngtak Oh, Viet-Duc Le, Uday Narayan Maiti, Jin Ok Hwang, Woo Jin Park, Joonwon Lim, Kyung Eun Lee, Youn-Sang Bae, Yong-Hyun Kim, Sang Ouk Kim.
    ACS nano 9 (2015) 9148.(IF:15.881)
  14. Rheological properties of graphene oxide liquid crystal.
    P Kumar, UN Maiti, KE Lee, SO Kim
    Carbon 80 (2014) 453.(IF:10.9)
  15. Three‐Dimensional Shape Engineered, Interfacial Gelation of Reduced Graphene Oxide for High Rate, Large Capacity Supercapacitors.
    U.N Maiti, J Lim, KE Lee, WJ Lee, SO Kim
    Adv. Mater 26 (2014) 615.(IF:32.086)
  16. Chemically Modified/Doped Carbon Nanotubes & Graphene for Optimized Nanostructures &Nanodevices ,
    U. N.Maiti, W.J.Lee, J.M. Lee, Y. Oh, J.Y. Kim, J.E. Kim, J. Shim, T. H. Han, and S. O. Kim
    Adv. Mater 26 (2014) 40. (IF:32.086)
  17. Liquid crystal size selection of large-size graphene oxide for size-dependent N-doping and oxygen reduction catalysis.
    KE Lee, JE Kim, U.N Maiti, J Lim, JO Hwang, J Shim, JJ Oh, T Yun, SO Kim
    ACS nano 8 (2014) 9073.(IF:15.881)
  18. Liquid Crystal Size Selection of Large Size Graphene Oxide for Size Dependent N-Doping & Oxygen Reduction Catalysis,
    K.E. Lee, J.E. Kim, U.N.Maiti, J. Lim, J.O. Hwang, J. Shim, J.J. Oh, T.Y. Yoon, and S.O. Kim
    ACS Nano 8(2014)9073. (IF 15.881)
  19. Rheological Properties of Graphene Oxide Liquid Crystal,
    P. Kumar, U.N.Maiti, K.E. Lee, S.O.Kim,
    Carbon 80 (2014)453.(IF 10.9)
  20. Complementary p- & n-Type Polymer Doping for Ambient Stable Graphene Inverter.
    J.M. Yun, S. Park, ; Y.H. Hwang, E-S. Lee, U.N. Maiti, H. Moon, B-Y. B. Kim, Byeong-Soo; Y.H. Kim, S.O. Kim
    Acs Nano8(2014)650. (IF 15.881)
  21. Preparation of graphene-polyaniline composites by simple chemical procedure and its improved field emission properties.
    S. Goswami, U.N. Maiti, S. Maiti, S. Nandy, M.K. Mitra, K.K. Chattopadhyay
    Carbon 49(2011)2245. [IF:10.9].


Other Journal
[IF-Impact factor]

  1. Microwave induced rapid surface amorphization of metal oxide nanowire into sulfides shell for electronically modulated efficient hydrogen evolution catalyst.
    Abhisek Majumdar, Golam Masud Karim, Pronoy Dutta, Heehyeon Lee, Sujit Kumar Deb, Anirban Sikdar, Youngtak Oh, Uday Narayan Maiti,
    Catalysis Today 423 (2023) 113962 (IF: 6.562)
  2. Energy-efficient ultrafast microwave crystalline phase evolution for designing highly efficient oxygen evolution catalysts.
    Abhisek Majumdar, Pronoy Dutta, Yunho Kang, Golam Masud Karim, Anirban Sikdar, Sujit Kumar Deb, Sang Ouk Kim, Uday Narayan Maiti,
    Applied Surface Science 617 (2023) 156622 (IF: 7.392)
  3. Computational and Experimental Design of the Octahedral PdFe Alloy Nanocatalyst for Hiyama Cross-Coupling and Environmental Pollutant Degradation.
    Swarnalata Swain, Vishal Kandathil, Golam Masud Karim, Uday Narayan Maiti, Siddappa A Patil, Akshaya K Samal
    ACS Applied Nano Materials 6 (2023) 3254-3267 (IF:6.14)
  4. Microwave induced rapid surface amorphization of metal oxide nanowire into sulfides shell for electronically modulated efficient hydrogen evolution catalyst.
    Abhisek Majumdar, Golam Masud Karim, Pronoy Dutta, Heehyeon Lee, Sujit Kumar Deb, Anirban Sikdar, Youngtak Oh Uday Narayan Maiti,
    Catalysis Today (2022) 113962 (IF: 6.562)
  5. Developing high-performance flexible zinc ion capacitors from agricultural waste-derived carbon sheets.
    Pooja B Naik, Prahlad Yadav, Radha Nagaraj, Rangaswamy Puttaswamy, Hemanth Kumar Beere, Uday Narayan Maiti,Chanchal Mondal, Nataraj Sanna Kotrappanavar, Debasis Ghosh
    ACS Sustainable Chemistry & Engineering 10 (2022) 1471-1481 (IF: 9.224)
  6. Stable and boosted oxygen evolution efficiency of mixed metal oxide and borate planner heterostructure over heteroatom (N) doped electrochemically exfoliated graphite foam.
    Munu Borah, Anirban Sikdar, Samadhan Kapse, Abhisek Majumdar, Pronoy Dutta, Golam Masud Karim, Sujit Deb, Ranjit Thapa, Uday Narayan Maiti,
    Catalysis Today 370 (2021) 83-92 (IF: 6.562)
  7. Spontaneous three-dimensional self-assembly of MXene and graphene for impressive energy and rate performance pseudocapacitors.
    Anirban Sikdar, Pronoy Dutta, Sujit Kumar Deb, Abhisek Majumdar, N Padma, Subhradip Ghosh Uday Narayan Maiti,
    Electrochimica Acta 391 (2021) 138959 (IF:7.336)
  8. Polyaniline–Graphene Hydrogel Hybrids via Diffusion Controlled Surface Polymerization for High Performance Supercapacitors.
    Anirban Sikdar, Sujit Kumar Deb, Abhijit Gogoi, Abhisek Majumdar, Pronoy Dutta, K Anki Reddy, Uday Narayan Maiti,
    ACS Applied Nano Materials 3 (2020) 12278-12287 (IF:6.14)
  9. Ultra-large area graphene hybrid hydrogel for customized performance supercapacitors: High volumetric, areal energy density and potential wearability.
    Anirban Sikdar, Abhisek Majumdar, Pronoy Dutta, Munu Borah, Sang Ouk Kim, Uday Narayan Maiti,
    Electrochimica Acta 332 (2020) 135492 (IF:7.336)
  10. ZnO-(Cu/Ag) TCNQ heterostructure network over flexible platform for enhanced cold cathode application.
    Shreyasi Pal, Soumen Maiti, Uday Narayan Maiti, Kalyan Kumar Chattopadhyay
    Nanotechnology 27 (2016) 265601 (IF:3.953)
  11. Subnanometer Cobalt-Hydroxide-Anchored N-Doped Carbon Nanotube Forest for Bifunctional Oxygen Catalyst.
    JE Kim, J Lim, GY Lee, SH Choi, U.N Maiti, WJ Lee, HJ Lee, SO Kim
    ACS applied materials & interfaces (2016).(IF:10.383)
  12. Self-size-limiting nanoscale perforation of graphene for dense heteroatom doping.
    U.N Maiti, R Thapa, J Lim, DJ Li, KH Kim, SO Kim
    ACS applied materials & interfaces 7 (2015) 25898.(IF:10.383)
  13. Spontaneous hyper-branching in ZnO nanostructures: morphology dependent electron emission and light detection.
    S Pal, S Maiti, U.N Maiti, KK Chattopadhyay
    RSC Advances 5 (2015) 81176.(IF:4.036)
  14. Low temperature solution processed ZnO/CuO heterojunction photocatalyst for visible light induced photo-degradation of organic pollutants.
    S Pal, S Maiti, U.N Maiti, KK Chattopadhyay
    CrystEngComm 17 (2015) 1464.(IF:3.756)
  15. Hierarchical TiO2 Nanowire Over Pabric Platform: Potential Candidate for Wearable Field Emitter and Photocatalyst.
    S Maiti, U.N Maiti, KK Chattopadhyay
    Synthesis and Reactivity in Inorganic, Metal-Organic, and Nano-Metal Chemistry 44 (2014) 1255.(IF:1.514)
  16. Graphene Hydrogel, Graphene Hydrogel Nanocomposite Materials, and Preparation Method Thereof.
    SO Kim, U.N Maiti, JW Lim
    US Patent App. 14/452,995
  17. Ultrasonicated double wall carbon nanotubes for enhanced electric double layer capacitance.
    S Pandey, U.N Maiti, K Palanisamy, P Nikolaev, S Arepalli
    Applied Physics Letters 104 (2014) 233902.(IF:3.971)
  18. Molybdenum sulfide/N-doped CNT forest hybrid catalysts for high-performance hydrogen evolution reaction.
    DJ Li, U.N Maiti, J Lim, DS Choi, WJ Lee, Y Oh, GY Lee, SO Kim
    Nano letters 14 (2014) 1228.(IF:12.262)
  19. Scalable approach for the realization of garland shaped 3D assembly of CuTCNQ nanorods: an efficient electron emitter.
    S Pal, S Maiti, U.N Maiti, KK Chattopadhyay
    Journal of Materials Chemistry C 2 (2014) 4005.(IF:8.067)
  20. Nitrogen-doped carbon nanotubes and graphene composite structures for energy and catalytic applications.
    WJ Lee, U.N Maiti, JM Lee, J Lim, TH Han, SO Kim
    Chemical Communications 50 (2014) 6818.(IF:6.065)
  21. Ambient condition oxidation of zinc foil in supersaturated solution for shape tailored ZnO nanostructures: low cost candidates for efficient electron emitter and UV-detector.
    S Maiti, U.N Maiti, A Chowdhury, KK Chattopadhyay
    CrystEngComm 16 (2014) 1659.(IF:3.756)
  22. Nitrogen-Doped Carbon Nanotubes & Graphene Composite Structures for Energy & Catalytic Applications.
    Won Jun Lee,�Uday Narayan Maiti,�Ju Min Lee, Joonwon Lim,Tae Hee Han and Sang Ouk Kim (�Equal contribution).
    Chem. Comm. 50(2014)6818(IF 6.065)
  23. N-Doped CNT Forest Hybrid Catalysts for High Performance Hydrogen Evolution Reaction
    D.J. Li, U.N.Maiti, J.W. Lim, D.S. Choi, W.J. Lee, Y. Oh, G.Y. Lee, and S. O. Kim
    Nano Lett. 14( 2014)1228. [IF 12.262]
  24. Ultrasonicated double wall carbon nanotubes for enhanced electric double layer capacitance,
    S.Pandey, U. N. Maiti, K.Palanswami, P.Nikolaev, and S.Arepalli
    Appl. Phys. Lett. 104 (2014) 233902 [IF 3.971]
  25. olyaniline/Vanadium oxide composites: An effective control in morphology byvarying reactant concentrations,
    S. Goswami, U.N. Maiti, S. Maiti, M.K. Mitra , K.K. Chattopadhyay,
    Materials Chemistry and Physics138 (2013) 319 [IF: 4.778].
  26. An ambient condition, one pot route for large scale production of ultrafine (< 15 nm) ZnO nanowires from commercial zinc exhibiting excellent recyclable catalytic performance: Approach extendable to CuO nanostructures.
    U.N. Maiti, S. Maiti, and K. K. Chattopadhyay,
    CrystEngComm 14(2012)640 [IF:3.756]
  27. Hierarchical graphene nanospikes over 3D platform: A route towards fully foldable graphene based electron source,
    U.N. Maiti, S. Maiti, N.S. Das and K. K. Chattopadhyay
    Nanoscale 3 (2011) 4135 (IF:8.307)
  28. Room temperature deposition of ultra sharpZnOnanospikes array over metallic, non-metallic, flexible carbon fabrics: An efficient field emitter,
    U.N. Maiti, S. Maiti, S. Goswami, D. Sarkar and K. K. Chattopadhyay
    CrystEngComm 13(2011) 1976. [IF:3.756].
  29. Ultrathin graphene edges at the nanowire tips: A cascade cold cathode with two stage field amplification.
    U.N. Maiti, S. Maiti, T. Pal Majumder and K KChattopadhyay
    Nanotechnology 22(2011)505703 [IF:3.953] Among the top 10 downloaded paper for the first three month of publication.
  30. A facile strategy for the fabrication of uniform CdS nanowires with high yield and its controlled morphological growth with the assistance of PEG in hydrothermal route
    K Pal, UN Maiti, TP Majumder, SC Debnath
    Applied Surface Science 258 (2011), 163. [IF: 7.392].
  31. Ultraviolet visible spectroscopy of CdSnano-wires doped ferroelectric liquid crystal
    K Pal, UN Maiti, TP Majumder, P Dash, NC Mishra, N Bennis, JM Ot�n
    Journal of Molecular Liquids 164 (2011), 233[IF: 6.633].
  32. Temperature-dependent ac conductivity and dielectric response of vanadium doped CaCu3Ti4O12 ceramic
    A. Sen, U.N. Maiti, and K.K. Chattopadhyay
    Applied Physics A 104 (2011) 1105.[IF:2.877].
  33. Flexible cold cathode with ultralow threshold field designed through wet chemical route.
    U.N. Maiti, S. Maiti, R. Thapa and K.K. Chattopadhyay
    Nanotechnology 21(2010) 505701[IF:3.953]
  34. Synthesis of a zinc oxide nanosheet�nanowire network complex by a low-temperature chemical route: Efficient UV detection and field emission property.
    U.N. Maiti, S. Karan, B. Mallik, K.K. Chattopadhyay
    ScriptaMaterialia 62 (2010) 305. [IF: 6.302].
  35. Efficient field emission from 3-D assembly of ZnOnanoneedles synthesized by simple solution technique,
    U.N. Maiti, A. Sen, K.K. Chattopadhyay
    J. Nanoscience and Nanotechnology10 (2010) 4341. [IF:0.115].
  36. Novel low temperature synthesis of ZnO nanostructures and its efficient field emission property.
    U.N. Maiti, Sk. F. Ahmed, M.K. Mitra and K. K. Chattopadhyay,
    Materials Research Bulletin 44 (2009) 134. [IF:5.6].
  37. Enhanced optical and field emission properties of CTAB assisted hyrothermal grown nanorods,
    U.N. Maiti, S. Nandy, S. Karan, B. Mallik, K.K. Chattopadhyay,
    Applied Surface Science 254 (2008) 7266. [IF:7.392].
  38. Effect of Mn doping on the optical and nanostructural properties of ZnOnanorods synthesized via sol-gel technique,
    U.N. Maiti, P. K. Ghosh and K. K. Chattopadhyay,
    Physica B 387 (2007) 103. [IF:2.988].
  39. Structural, optical and photoemission spectroscopic studies of nano /micro ZnO:Cd rods synthesized via sol-gel route,
    U.N. Maiti, P. K. Ghosh, Sk. F. Ahmed, M. K. Mitra and K. K. Chattopadhyay
    Journal of Sol-Gel Science and Technology 41, (2007) 87. [IF:2.606].
  40. Ambient condition oxidation of zinc foil in supersaturated solution for shape tailored ZnO nanostructures: low cost candidates for efficient electron emitter and UV-detector.
    S Maiti, UN Maiti, S Pal, KK Chattopadhyay
    CrystEngComm 16(2014)1659.[IF:3.756].
  41. Device-oriented graphene nanopatterningby mussel-inspired directed blockcopolymer self-assembly,
    S. Park, J. M. Yun, U. N.Maiti, H-S. Moon,H. M. Jin and S. O. Kim,
    Nanotechnology 25 (2014) 014008.[IF:3.953].
  42. S.Pal, S.Maiti, U.N. Maiti and K.K. Chattopadhyay,
    Low temperature solution processed ZnO/CuO heterojunction photocatalyst for visible light induced photo-degradation of Organic pollutants.
    CrystEngComm 17 (2015) 1464.[IF:3.756].
  43. S.Pal, S.Maiti, U.N. Maiti and K.K. Chattopadhyay,
    Scalable approach for the realization of garland shaped 3D assembly of CuTCNQnanorods: an efficient electron emitter,
    J. Mater. Chem. C, 2, (2014) 4005 [IF 8.067].
  44. Organic nanowire hierarchy over fabric platform for flexible cold cathode
    S Maiti, UN Maiti, S Pal, KK Chattopadhyay
    Nanotechnology 24 (2013) 465601 [IF:3.953].
  45. Switching of ferroelectric liquid crystal doped with cetyltrimethylammonium bromide-assisted CdS nanostructures,
    K.Pal, ,U.N. Maiti, T.P.Majumder, S.C.Debnath, S.Ghosh, S.K. Roy, J.M.Ot�n,
    Nanotechnology 24(2013)125702.[IF:3.953]
  46. Controlling the sharpness of ZnOtetrapods by restricted zinc oxidation in the open air: a low turn-on field emitter stabilized by graphene,
    S.Maiti, U.N. Maiti, B.C.Behera, S. Pal and K. K.Chattopadhyay,
    J. Mater. Chem. C, 1 (2013), 4940 [IF 8.067].
  47. Synthetic strategy of porous ZnO and CdS nanostructures doped ferroelectric liquid crystal and its optical behavior,
    K.Pal, U.N. Maiti, T.P.Majumder, S.C.Debnath, S. Ghosh, S.K.Roy, J.M.Ot�n,
    J. Molecular Structure 138 (2013)319. [IF:3.841].
  48. Single crystalline nanostructures of giant dielectric calcium copper titanate: a convenient route toward materialization of hard to realize multi-component perovskite nanostructures,
    A Sen, UN Maiti, S Maiti, KK Chattopadhyay,
    Journal of Materials Science, 2013, 48, 3967[IF: 4.22].
  49. Three dimensional ZnO nanostructures realized through a polymer mediated aqueous chemical route: candidate for transparent flexible electronics,
    S. Maiti, U.N. Maiti, and K. K. Chattopadhyay,
    CrystEngComm14(2012)8244. [IF:3.756]
  50. Excellent photocatalytic activity of mixed phase ultra slim TiO2 nanofibers for the degradation of organic wastes,
    D. Sarkar, U. N. Maiti, C. K. Ghosh, K.K. Chattopadhyay
    Advanced Science Letter2012,6 ,127[IF:1.253].
  51. Anatase TiO2 nanoparticles synthesis via simple hydrothermal route: Degradation of Orange II, Methyl Orange and Rhodamine B,
    R. Thapa, S. Maiti, T.H. Rana, U.N. Maiti, K.K. Chattopadhyay
    Journal of Molecular Catalysis A: Chemical, 363,(2012), 223 [IF: 5.089].
  52. Effect of vanadium doping on the dielectric and nonlinear current-voltage characteristics of CaCu3Ti4O12 ceramic.
    A. Sen, U.N. Maiti, R. Thapa and K.K. Chattopadhyay
    Journal of Alloy and Compound 506 (2010) 853. [IF:6.371].
  53. Self filling of Ni nanoparticles in amorphous AlN nanotubes and its field emission property.
    R. Thapa, B. Saha, N.S. Das, U.N. Maiti and K.K. Chattopadhyay
    Applied Surface Science 256 (2010) 3988. [IF: 7.392].
  54. Enhanced p-type conductivity and band gap narrowing in heavily Al doped NiO thin films deposited by RF magnetron sputtering
    S. Nandy, U.N. Maiti, C.K.Ghosh and K.K. Chattopadhyay
    J. Phys.: Condens. Matter 21 (2009) 115804. [IF:2.745].
  55. Highly conducting transparent nanocrystalline Cd1-xSnxS thin film synthesized by RF magnetron sputtering and studies on its optical, electrical and field emission properties;
    P. K. Ghosh, U.N. Maiti and K. K. Chattopadhyay,
    Solar Energy Materials & Solar Cells 90 (2006) 2616. [IF: 7.305].
  56. Synthesis and optical characterization of polymer-capped nanocrystallineZnS thin films by chemical process,
    R. Maity, U.N. Maiti, M.K. Mitra, K.K. Chattopadhyay,
    Physica E 33 (2006) 104. [IF: 3.369].
  57. Field emission from ZnSnanorods synthesized by radio frequency magnetron sputtering technique;
    P.K.Ghosh, U.N. Maiti, S. Jana and K.K.Chattopadhyay,
    Applied Surface Science 253 (2006) 1544. [IF: 7.392].
  58. Structural and optical characterizations of CdSnanofibers grown by DC-sputtering technique;
    P. K. Ghosh, U.N. Maiti and K. K. Chattopadhyay,
    Materials Letter 60 (2006) 2881.[IF:3.574].

International Conference/Proceedings

  1. Controlling the ZnO nanowire tip sharpness by room temperature aqueous process for excellent field emitter.
    UN Maiti, S. Maiti, K.K.Chattopadhyay,
    Fifteenth International Workshop on The Physics of Semiconductor Devices (IWPSD), p.-102-103,2009
  2. Visible blind photodetector based on room temperature grown ZnOnanospikes array,
    S. Maiti,U. N.Maiti, S. Maiti, K.K.Chattopadhyay
    16th International Workshop on Physics of Semiconductor Devices (IWPSD) DOI:10.1117/12.926956, 2012)
  3. Optical and electrical properties of amorphous CuAlO 2 thin film deposited by RF magnetron sputtering,
    S Nandy, U.N.Maiti, C.K.Ghosh, K.K.Chattopadhyay.
    Fourteen International Workshop on The Physics of Semiconductor Devices (IWPSD), p.-443-445,2007.