S
Sourish Banerjee
Researcher at University of Calcutta
Publications - 62
Citations - 1043
Sourish Banerjee is an academic researcher from University of Calcutta. The author has contributed to research in topics: Dielectric & Atmospheric temperature range. The author has an hindex of 18, co-authored 62 publications receiving 970 citations. Previous affiliations of Sourish Banerjee include Indian Association for the Cultivation of Science & Indian National Association.
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Review Synthesis of conducting nanowires
TL;DR: In this article, the synthesis of nanowires of different metals/alloys and semiconductors respectively is reviewed and the methods used mostly belong to one of the following categories: chemical, electrodeposition, physical and filling of carbon nanotubes.
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Magnetic properties of oxide-coated iron nanoparticles synthesized by electrodeposition
TL;DR: In this article, the variation of magnetization as a function of temperature has been analyzed using the Bloch equation and the results show a trend different from that predicted theoretically, which is attributed to an exchange interaction of the iron core with a ferrimagnetic oxide (either Fe 3 O 4 or γ-Fe 2 O 3 ) shell.
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Optical absorption by nanoparticles of Cu2O
TL;DR: In this paper, the optical absorption of these particles was found to be characterized by excitons with corresponding energies varying from 2.6 to 2.25 eV in the particle size range mentioned above.
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Template based growth of nanoscaled films: a brief review
Sreemanta Mitra,Sreemanta Mitra,Amrita Mandal,Amrita Mandal,Sourish Banerjee,Anindya Datta,Santanu Bhattacharya,A. Bose,Dipankar Chakravorty +8 more
TL;DR: In this paper, the growth of ultrathin films of metals and inorganic materials using various templates, both solid and liquid, has been reviewed, and it is expected the latter approach will lead to the synthesis of materials with hitherto unknown properties.
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Plasmon resonance shifts in oxide-coated silver nanoparticles
TL;DR: In this paper, the authors analyzed the optical scattering from ultrafine composite particles which took into account the size-dependent dielectric permittivity of silver metal cores and showed that nanoshells of thicknesses in the range 1.0 -10.6 nm are grown on the metal core depending on the oxidation temperature.