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High Performance Computing Center

Computational Science and Engineering

Acknowledgment: Authors thank High Performance Computing Center, SRM Institute of Science and Technology for providing the computational facility

2015

 

 

 1.  U. N. Maiti, Ranjit Thapa, J. Lim, D. J. Li, S. O. Kim, Self-Size-Limiting Nanoscale Perforation of Graphene for Dense Heteroatom Doping,  ACS Applied Materials & Interface, 7, 25898, 2015. IF: 8.097

 2.  S. Sinthika, E. Mathan Kumar, V. J. Surya, Y. Kawazoe, Noejung Park, K. Iyakutti, Ranjit Thapa, Activation of CO and CO2 on Homonuclear Boron Bonds of Fullerene-like BN Cages: First Principles Study, Scientific Reports, 5, 17560, 2015. IF: 4.122

 3.  S. Sinthika, Ranjit Thapa, Influence of enolate/epoxy configuration, doping and vacancy on the catalytic activity of graphene, RSC Advances 5, 93215, 2015. IF: 2.936

 4.  Kusha Kumar Naik, Ruchita T. Khare, Rogerio V. Gelamo, Mahendra A. More, Ranjit Thapa, Dattatray J. Late, Chandra Sekhar Rout, Enhanced electron field emission from NiCo2O4 nanosheet arrays, Material Research Express, 2, 2015. 095011. IF: 1.151

 5.  Soubhik Chakrabarty, A. H. M. Abdul Wasey, Ranjit Thapa, G. P. Das, First principles design of divacancy defected graphene nanoribbon based rectifying and negative differential resistance device", AIP Advance, 5 (2015) 087163. IF: 1.653

 6.  A. Samantara, D. Mishra, S. Suryawanshi, M. More, Ranjit Thapa, D. J. Late, B. K. Jena, C. S. Rout, “Facile synthesis of Ag nanowires-rGO composites and their promising field emission performance”, RSC Advance, 5 2015. 41887. IF: 2.936

 7.  Dongbin Shin, Ranjit Thapa, Noejung Park, "An oxygen reduction catalytic process through superoxo adsorption states on n-type doped h-BN: a first-principles study", Current Applied Physics, 15, (2015) 727–732. IF: 2.058

 8.  S. Nandy, Ranjit Thapa, M. Kumar, T. Som, N. Bundaleski, O. M.N.D. Teodoro, R. Martins, E. Fortunato, “Efficient Field Emission from Vertically Aligned Cu2O1δ(111) Nanostructure Influenced by Oxygen Vacancy”, Advance Functional Materials, 25, 2015 947–956. IF: 13.325

 9.  S. Ratha, R. Khare, M. A. More, Ranjit Thapa, D. J. Late, C. S. Rout, "Field Emission properties of spinel ZnCo2O4 Microflowers", RSC Advance, 5, 2015. 5372-5378. IF: 2.936

 10.  E. Mathan Kumar, S. Sinthika and Ranjit Thapa, "First principles guide to tune h-BN nanostructures as superior light element based hydrogen storage material: Role of bond exchange spillover mechanism", Journal of Materials Chemistry A, 3 (2015) 304-313. IF: 9.931

 11.  Ranjit Thapa, Saurabh Ghosh, S. Sinthika S, E. Mathan Kumar, Noejung Park, "Magnetic, elastic and optical properties of zinc peroxide (ZnO2): First principles study", Journal of Alloys and Compounds, 620 (2015) 156-163. IF: 3.779

 12.  P. Natarajan,  M. Parani, “First Complete Genome Sequence of a Probiotic Enterococcus faecium Strain T-110 and Its Comparative Genome Analysis with Pathogenic and Non-pathogenic Enterococcus faecium Genomes”, J. Genetics and Genomics, 2015, 42, 43-46. IF: 4.066

 13.  K. Ranjith, Spectral formulation of the elastodynamic boundary integral equations for bi-material interfaces, Inter. J. Solids and Structures, 2015, 59, 29-36. IF: 2.566

 14.  Sudheesh KP, Balaji R, Shahid KT, Parani M, Natarajan P ,”The complete chloroplast genome sequence of Indian mustard (Brassica juncea L.)”. Mitochondrial DNA. 27(6), 4622-4623. 2015. IF: 0.925