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Your search keyword '"Samanta, Pabitra Narayan"' showing total 7 results
Start Over Author "Samanta, Pabitra Narayan" Publisher royal society of chemistry
7 results on '"Samanta, Pabitra Narayan"'

1. Negative thermal quenching of photoluminescence in a copper–organic framework emitter.

Author

Wu, Ting, Jiang, Shenlong, Samanta, Pabitra Narayan, Xie, Yangbin, Li, Jipeng, Wang, Xiaoling, Devashis, Majumdar, Gu, Xiangwei, Wang, Yusong, Huang, Wei, Zhang, Qun, Leszczynski, Jerzy, and Wu, Dayu

Subjects
LIGHT emitting diodes, PHOTOLUMINESCENCE, DELAYED fluorescence, THERMODYNAMIC cycles, LOW temperatures
Abstract

Negative thermal quenching (NTQ), an abnormal phenomenon that the intensity of photoluminescence (PL) increases with increasing temperature, has essentially been restricted to either bulk semiconductors or very low temperatures. Here, we report a delayed fluorescence copper–organic framework exhibiting negative thermal quenching (NTQ) of photoluminescence, which is driven by the fluctuation between the localized and delocalized form of its imidazole ligand. The process is completely reversible on cooling/heating cycles. This study opens a new avenue to explore the electronically switchable NTQ effect in coordination networks and further to develop the NTQ-based light-emitting diodes. [ABSTRACT FROM AUTHOR]

Published
2020
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2. High-temperature thermoelectric transport behavior of the Al/γ-Al2O3 interface: impact of electron and phonon scattering at nanoscale metal–ceramic contacts.

Author

Samanta, Pabitra Narayan and Leszczynski, Jerzy

Abstract

The thermoelectric transport properties of a metal–ceramic interface based on Al and γ-Al2O3 are explored by employing the non-equilibrium Green's function formalism (NEGF) coupled with density functional theory (DFT). However, to acquire the phonon thermal conductance, the parameterized ReaxFF potential is utilized for computing the intrinsic force constants of propagating phonons across the interface. Several interfacial electronic properties such as the charge transfer, the potential barrier, and the atomic orbital overlap are critically analyzed based on the DFT derived results of the electrostatic difference potential, the electron density difference, and the spin-polarized density of states in the fully relaxed structure of the interface. Within the NEGF framework, both the electron and phonon transmission coefficients are estimated for the variations of bias voltage and temperature gradient across the interface. The strong orbital overlap and the scattering of electrons and phonons at the nanometer-size interface suppress the lattice thermal conductivity significantly compared to the electron transport, which in turn enhances the thermoelectric performance of the Al/Al2O3 composite, in contrast to the bulk material of Al. Moreover, a steep rise of power factor induced by the increased transmission of charge carriers with temperature improves the energy conversion efficiency of the material. The present findings could pave the way for developing thermoelectric materials based on metal–ceramic composites. [ABSTRACT FROM AUTHOR]

Published
2018
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6. High-temperature thermoelectric transport behavior of the Al/γ-Al 2 O 3 interface: impact of electron and phonon scattering at nanoscale metal-ceramic contacts.

Author

Samanta PN and Leszczynski J

Abstract

The thermoelectric transport properties of a metal-ceramic interface based on Al and γ-Al2O3 are explored by employing the non-equilibrium Green's function formalism (NEGF) coupled with density functional theory (DFT). However, to acquire the phonon thermal conductance, the parameterized ReaxFF potential is utilized for computing the intrinsic force constants of propagating phonons across the interface. Several interfacial electronic properties such as the charge transfer, the potential barrier, and the atomic orbital overlap are critically analyzed based on the DFT derived results of the electrostatic difference potential, the electron density difference, and the spin-polarized density of states in the fully relaxed structure of the interface. Within the NEGF framework, both the electron and phonon transmission coefficients are estimated for the variations of bias voltage and temperature gradient across the interface. The strong orbital overlap and the scattering of electrons and phonons at the nanometer-size interface suppress the lattice thermal conductivity significantly compared to the electron transport, which in turn enhances the thermoelectric performance of the Al/Al2O3 composite, in contrast to the bulk material of Al. Moreover, a steep rise of power factor induced by the increased transmission of charge carriers with temperature improves the energy conversion efficiency of the material. The present findings could pave the way for developing thermoelectric materials based on metal-ceramic composites.

Published
2018
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7. Air oxygenation chemistry of 4-TBC catalyzed by chloro bridged dinuclear copper(II) complexes of pyrazole based tridentate ligands: synthesis, structure, magnetic and computational studies.

Author

Banerjee I, Samanta PN, Das KK, Ababei R, Kalisz M, Girard A, Mathonière C, Nethaji M, Clérac R, and Ali M

Subjects
Catalysis, Catechols chemistry, Coordination Complexes chemistry, Crystallography, X-Ray, Electrochemical Techniques, Kinetics, Ligands, Magnetics, Mixed Function Oxygenases chemistry, Mixed Function Oxygenases metabolism, Molecular Conformation, Oxidation-Reduction, Pyrazoles chemistry, Air, Coordination Complexes chemical synthesis, Copper chemistry
Abstract

Four dinuclear bis(μ-Cl) bridged copper(II) complexes, [Cu(2)(μ-Cl)(2)(L(X))(2)](ClO(4))(2) (L(X) = N,N-bis[(3,5-dimethylpyrazole-1-yl)-methyl]benzylamine with X = H(1), OMe(2), Me(3) and Cl(4)), have been synthesized and characterized by the single crystal X-ray diffraction method. In these complexes, each copper(II) center is penta-coordinated with square-pyramidal geometry. In addition to the tridentate L(X) ligand, a chloride ion occupies the last position of the square plane. This chloride ion is also bonded to the neighboring Cu(II) site in its axial position forming an SP-I dinuclear Cu(II) unit that exhibits small intramolecular ferromagnetic interactions and supported by DFT calculations. The complexes 1-3 exhibit methylmonooxygenase (pMMO) behaviour and oxidise 4-tert-butylcatechol (4-TBCH(2)) with molecular oxygen in MeOH or MeCN to 4-tert-butyl-benzoquinone (4-TBQ), 5-methoxy-4-tert-butyl-benzoquinone (5-MeO-4-TBQ) as the major products along with 6,6'-Bu(t)-biphenyl-3,4,3',4'-tetraol and others as minor products. These are further confirmed by ESI- and FAB-mass analyses. A tentative catalytic cycle has been framed based on the mass spectral analysis of the products and DFT calculations on individual intermediates that are energetically feasible.

Published
2013
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