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Name : Aswini Ghosh

Department : School of Physical Sciences
Designation : J.C. Bose National Fellow
Contact : +91 33 2473 4971 (Ext:1314)
Email : sspag@iacs.res.in


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Research interest:

Condensed Matter & Materials Physics; Broadband Dielectric Spectroscopy: Structure, Dynamics, Relaxation and Scaling: Superionic Glass, Conducting Oxide, Polymer Electrolyte, Nanocomposite; Energy conversion and Storage

 


Academic Profile

Academic qualifications:

Bachelor of Science with Physics (Major), Chemistry and Mathematics, 

Master of Science in Physics with specialization in Condended Matter Physics,

Doctor of Philosophy in Science,

Marie Curie Postdoc Fellowhip, Commission of the European Community (CEC, Brussels)

 

Professional experience:

Assistant Professor (January 1991 - May 1991), Indian Institute of Technology, Kharagpur, India.

Lecturer (May, 1991 - April 1994) and Senior Lecturer (May 1994 - April 1999), Indian Association for the Cultivation of Science, Kolkata, India.

Reader (May 1999 - April 2005), Indian Association for the Cultivation of Science, Kolkata, India.

Professor (May 2005 - December 2008), Indian Association for the Cultivation of Science, Kolkata, India

Senior Professor (December 2008 - November 2017), Indian Association for the Cultivation of Science, Kolkata, India

J. C. Bose National Fellow (DST-SERB, Govt. of India) (June 2015 - date), Indian Association for the Cultivation of Science, Kolkata, India

 

Professional recognisation

The scaling model developed for the dynamics of charge carriers in disorder solids [published in Physical Review Letters, 84, 2188(2000)] has been widely accepted and referred to as Ghosh scaling model by the scientists working in this and related fields.

 


Group

Arnab Palui


RA
PhD
RA
sspap@iacs.res.in
Pulak Pal


ResearchAssociate
PhD
PhD
ssppp@iacs.res.in
Tapabrata Dam


N-PDF
PhD
N-PDF
ssptd@iacs.res.in
Chirantan Dey


N-PDF
PhD
N-PDF
chirantandey88@gmail.com

 


Publication

 

Publications

 

Summary of publications

Total publications in SCI journals: 247

Number of publications in some reputed journals:

Publications in Physical Review B/E/Letters: 36

Publications in EPL-Europhysics Letters: 8

Publications in Journal of Physics: Condensed Matter: 27

Publications in Journal of Applied Physics / Letters: 36

Publications in Journal of Chemical Physics: 20

Publications in Journal of Physical Chemistry C: 11

Publications in Journal of Non-Crystalline Solids: 15

Publications in Solid State Ionics:  14

Etc.

List of publications:

Ionic transport and segmental dynamics in poly (ethylene oxide) based polymer electrolytes: Dependence on molecular weight of host polymer matrix
S. K.  Patla, P. Pal and A. Ghosh, Solid State Ionics, 398, 116261 (2023).
 

Highly ion conductive cross-linked ionogels for all-quasi-solid-state lithium-metal batteries, P. Pal and A. Ghosh, APL Energy, 1, 016102 (2023).

 

Polythiophene-g-poly (methacrylic acid) and perylene diimide appended peptide conjugates with tuneable photoluminescence, OMEIC, and photo-switching properties, S. Hazra, R. Ghosh, A. Palui, A. Ghosh, A. Banerjee, A. K. Nandi, Journal of Materials Chemistry C, 114808 (2023).

 

A Silver-Based Integrated System Showing Mutually Inclusive Super Protonic Conductivity and Photoswitching Behavior, S. Saha, K.S. Das, P. Pal, S. Hazra, A Ghosh, S. Bala, A. Ghosh, A.K. Das, R. Mandal, Inorganic Chemistry, 62, 3485 (2023)

 

High ionic conduction and polarity-induced piezoresponse in layered bimetallic Rb4Ag2BiBr9 single crystals, M. Singh, T. Paul, P. Pal, A. Sahoo, L.S. Tanwar, N.H. Makani, A. Ghosh, R. Banerjee, Journal of Physical Chemistry C, 12621810 (2022).

 

Onset of vacancy-mediated high activation energy leads to large ionic conductivity in two-dimensional layered Cs2PbI2 Cl2 Ruddlesden-Popper halide perovskite, N. H. Makani, A. Sahoo, P. Pal, T. Paul, L. S. Tanwar, M. Singh, A. Ghosh, R. Banerjee, Physical Review Materials, 6115002 (2022).

 

Correlation of structure and ionic-conductivity in phosphate glass using MAS-NMR and impedance spectroscopy: Influence of sodium salt, I. Mandal, S. R. Keshari, L. Lodhi, K. K. Dey, M. Ghosh, A. Ghosh, A. R. Allu, Physical Review Materials, 6115403 (2022).

 

Photoelectrochemical water oxidation over novel semiconducting zinc-based metal–thiolate frameworkA. Ghosh, S. Shyamal, A. Palui, R.N. Manna, S. Mondal, M. Jana, A. Ghosh, A. Bhaumik, ACS Applied Materials & Interfaces, 1437699 (2022).

 

 

Ion transport and segmental dynamics in cross-linked poly(ethylene glycol) diacrylate based solid-like polymer electrolytes, P. Pal and A. Ghosh, J. Phys. Chem. C, 126, 4799 (2022).

 

Ionic conduction and relaxation mechanism in three-dimensional CsPbCl3 perovskite, P. Pal and A. Ghosh, J. Appl. Phys. 129, 234102 (2021).

 

Lithium embedded hierarchically porous aluminium phosphonate as anode material for lithium-polymer battery, P. Bhanja, T. Dam, S. Chatterjee, A. Bhaumik and A. Ghosh, J. Mater. Sci. Engg. B, 274, 115490 (2021).

 

Structure of silver molybdate glasses by X-ray and neutron diffraction, U. Hoppe, A. C. Hannon, A. Schöps and A. Ghosh, J. Non-Cryst. Solids, 573, 121143 (2021).

 

Structural units of binary vanadate glasses by X-ray and neutron diffraction, U. Hoppe, A. Ghosh, S. Feller, A.C. Hannon and J. Neuefeind, J. Non-Cryst. Solids, 572, 121120 (2021)

 

Ion transport and relaxation in phosphonium poly(ionic liquid) homo- and co-polymers, P. Banerjee, P. Pal, A. Ghosh and T. K. Mandal, J. Polymer Sci., 59, 1556 (2021)

 

Transformation of Wurtzite ZnO to a New Triclinic Nanoporous ZnO Phase via Hydrothermal Treatment with Metformin for Designing Proton Conducting Material, S. Chatterjee, A. Palui, S. Chongdar, S. Roy, A. Ghosh and A. Bhaumik, Chemistry - An Asian Journal, 16, 2261 (2021)

 

Novel crystalline nanoporous iron phosphonate based metal-organic framework as an efficient anode material for lithium ion batteries, D. Chakraborty, T. Dam, A. Modak, K. K. Kant, B. K. Chandra, A. Majee, A. Ghosh and A. Bhaumik, New J. Chem. 45, 15458 (2021).

 

Three-Dimensional CsPbCl3 Perovskite Anode for Quasi-Solid-State Li-ion and Dual-ion Batteries: Mechanism of Li+ Conversion Process in Perovskite, P. Pal and A. Ghosh, Physical Review Applied, 14, 064010 (2020).

 

Broadband dielectric spectroscopy of BMPTFSI ionic liquid doped solid-state polymer electrolytes: Coupled ion transport and dielectric relaxation mechanism, P. Pal and A. Ghosh, J. Appl. Phys. 128, 084104 (2020).

 

Robust Succinonitrile Plastic Crystal-Based Ionogel for All-Solid-State Li-Ion and Dual-Ion Batteries, P. Pal and A. Ghosh, ACS Applied Energy Materials, 3, 4295 (2020).

 

Effect of network structure on dynamics of lithium ions in molybdenum phosphate mixed former glasses, A. Chatterjee, S. Majumdar and A. Ghosh, Solid State Ionics, 347, 115238 (2020)

 

X-ray and neutron scattering studies of the structure of strontium vanadate glasses, U. Hoppe, R. Kranold, A. Ghosh, J. Neuefeind, D. T. Bowron, Physics and Chemistry of Glasses: European Journal of Glass Science and Technology B, 61, 200 (2020).

 

Ion conduction and relaxation mechanism in ionogels embedded with imidazolium based ionic liquids, P. Pal and A. Ghosh, J. Appl. Phys. 126, 135102 (2019).

 

Ion dynamics, rheology and electrochemical performance of UV cross-linked gel polymer electrolytes for Li-Ion battery, T. Dam, S. Jena and A. Ghosh, J. Appl. Phys. 126, 105104 (2019).

 

Structure-transport correlation of super-ionic mixed network former glasses, A. Palui and A. Ghosh, Solid State Ionics, 343, 115126 (2019).

 

Symmetric electric double layer capacitor containing imidazolium ionic liquid based solid polymer electrolyte: Effect of TiO2 and ZnO nano-particles on electrochemical behavior, S. Das and A. Ghosh, J. Appl. Polym. Sci., 137, 48757 (2019).

 

Transport of oxygen ions in Er doped La2Mo2O9 oxide ion conductors: Correlation with microscopic length scales, T. Paul and A. Ghosh, J. Appl. Phys. 123, 045107 (2018).

 

Structure and electrical conductivity of Ta doped La2Mo2O9 oxide ion conductors, T. Paul and A. Ghosh, J. Appl. Phys. 124,225102(2018).

 
Ion conduction phenomenon and electrochemical performance of gel polymer electrolyte in EDLC containing blend polymer host, ionic liquid and mixed carbonate plasticizers, T. Dam and A. Ghosh, J. Phys. Chem. C, 122,27214(2018).
 
Solid-state gel polymer electrolytes based on ionic liquids containing imidazolium cations and tetrafluoroborate anions for electrochemical double layer capacitors: Influence of cations size and viscosity of ionic liquids, P. Pal and A. Ghosh, J. Power Sources, 406, 128 (2018).
 

Correlation between ion transport and network structure of Li2O-P2O5 glasses, A. Chatterjee and A. Ghosh, Solid State Ionics, 314, 1 (2018).

 

Investigation of ionic conductivity and relaxation in plasticized PMMA-LiClO4 solid polymer electrolytes, P. Pal and A. Ghosh, Solid State Ionics, 319, 117 (2018).

 

Influence of TiO2 nano-particles on charge carrier transport and cell performance of PMMA -LiClO4 based nano-composite electrolytes, P. Pal and A. Ghosh, Electrochim. Acta, 260, 157 (2018).

 

Structure and dielectric properties of Ag2O-SeO2-TeO2 mixed former glasses, A. Palui and A. Ghosh, J. Non-Cryst. Solids, 482, 230 (2018).

 
Highly efficient gel polymer electrolytes for all solid-state electrochemical charge storage devices, P. Pal and A. Ghosh, Electrochemica Acta, 278, 137 (2018).
 

Thermal and structural investigations of xLi2O-(1-x)Bi2O3 (0.25 ≤ x ≤ 0.35) glasses, T. Paul, G. Mountjoy and A. Ghosh, Int. J. Appl. Glass Sci. 9 , 319 (2018).

 
Dynamics of lithium ions in tellurium-phosphate glasses: Correlation with structure, A. Chatterjee and A. Ghosh, Phys.Chem. Glasses: European J. Glass Sci. Technol. Part B, , 59,221 (2018).
 

Charge carrier dynamics in PMMA-LiClO4 based polymer electrolytes plasticized with different plasticizers, P. Pal and A. Ghosh, J. Appl. Phys. 122, 015101 (2017).

 

Structural and electrical transport properties of La2Mo2O9 thin films prepared by pulsed laser deposition, T. Paul and A. Ghosh, J. Appl. Phys. 121, 135106 (2017).

 
Ion dynamics in AgI doped silver selenium-tellurite mixed former glasses, A. Palui and A. Ghosh, J. Appl. Phys. 121, 125104 (2017).
 
Mixed glass former effect in Ag2O -SeO2-TeO2 glasses: Dependence on characteristic displacement of mobile ions and relative population of bond vibrations, A. Palui and A. Ghosh, J. Phys. Chem. C, 121, 8738 (2017).
 
Charge carrier relaxation in different plasticized PEO/PVDF-HFP blend solid polymer electrolytes, S. Das and A. Ghosh, J. Phys. Chem. B, 121, 5422 (2017)
 
Structure and electrical properties of vanadium boro-phosphate glasses, S. Das and A. Ghosh, J. Non-Cryst. Solids, 458, 28 (2017).
 
Solid polymer electrolyte based on PVDF-HFP and ionic liquid embedded with TiO2 nanoparticle for electric double layer capacitor (EDLC) application, S. Das and A. Ghosh, J. Electrochem. Soc. 164, F1348 (2017).
 

Dynamics of silver ions in AgI doped Ag2O-SeO2-MoO3 mixed former glasses, A. Palui, A. Shaw and A. Ghosh, Phys. Chem. Chem. Phys. 18, 25937 (2016).

 

Structural and electrical properties of Er doped La2Mo2O9 oxide ion conductors, T. Paul and A. Ghosh, J. Appl. Phys. 119, 065104 (2016).

 
Ionic relaxation in PEO/PVDF-HFP - LiClO4 blend polymer electrolytes: Dependence on salt concentration, S. Das and A. Ghosh, J. Phys. D: Appl. Phys. 49, 235601 (2016).
 
Structure, ion transport and relaxation dynamics of PEO/ PVDF-HFP- LITFSI blend polymer electrolyte embedded with ionic liquid, S. Das and A. Ghosh, J. Appl. Phys. 119, 095101 (2016).
 
Dynamics and relaxation of charge carriers in poly(methylmethacrylate) – lithium salt based polymer electrolytes plasticized with ethylene carbonate, P. Pal and A. Ghosh, J. Appl. Phys. 120, 045108 (2016).
 

Correlation between structure and oxygen ion dynamics in Y substituted La2Mo2O9 ionic conductors, T. Paul and A. Ghosh, AIP Advances 6, 095015 (2016).

 
Dynamics and relaxation of charge carriers in poly(methylmethacrylate)- based polymer electrolytes embedded with ionic liquid, P. Pal and A. Ghosh, Phys. Rev. E 92, 062603 (2015).
 
Correlation of structure and ionic conductivity in La2-xYxMo2O9 (0 ≤ x ≤ 0.2) oxygen ion conductors, T. Paul and A. Ghosh, J. Appl. Phys. 117, 235101 (2015).
 
Ion conduction and relaxation in PEO-LiTFSI-Al2O3 polymer nanocomposite electrolytes, S. Das and A. Ghosh, J. Appl. Phys. 117, 174103 (2015).
 
Ion dynamics in single and mixed former glasses: Correlation between the microscopic lengths and network structure, A. Shaw, B. Deb, S. Kabi and A. Ghosh, J. Electroceram. 34, 20 (2015).
 
Ionic conductivity and dielectric permittivity of PEO-LiClO4 solid polymer electrolyte plasticized with propylene carbonate, S. Das and A. Ghosh, AIP Advances, 5, 027125 (2015).
 
Effect of plasticizers on ionic conductivity and dielectric relaxation of PEO-LiClO4 polymer electrolyte, S. Das and A. Ghosh, Electrochim. Acta, 171, 59 (2015).
 
Ion dynamics in glassy ionic conductors: Scaling of mean square displacement of mobile ions, S. Kabi and A. Ghosh, EPL-Europhys. Lett. 108, 36002 (2014).
 
Dynamics of lithium ions in borotellurite mixed former glasses: Correlation between the characteristic length scales of mobile ions and glass network structural units, A. Shaw and A. Ghosh, J. Chem. Phys. 141, 164504 (2014).
 
Ionic conductivity and dielectric relaxation in Y doped La2Mo2O9 oxide-ion Conductors, T. Paul and A. Ghosh, J. Appl. Phys. 116, 144102 (2014).
 
Dielectric properties of La2-xBixMo2O9 (0 ≤ x ≤ 0.4) ionic conductors T. Paul and A. Ghosh, Mater. Res. Bull. 59, 416 (2014).
 
Structure and ionic conductivity of ionic liquid embedded PEO- LiCF3SO3 polymer electrolyte, A. Karmakar and A. Ghosh, AIP Adv. 4, 087112 (2014).
 
Structure and vibrational properties of La2-xBixMo2O9 (0.05 ≤ x ≤ 0.4) oxygen ion conductors, T. Paul and A. Ghosh, J. Alloys Comp. 613, 146 (2014).
 
Kinetics of crystallization in selenium molybdate glass, B. Deb and A. Ghosh, J. Non-Cryst. Solid, 385, 30 (2014).
 
Nanocrystallite effects on ion transport in molybdophosphate glasses, B. Deb and A. Ghosh, Solid State Ionics, 262, 728 (2014).
 
Mixed glass former effect in AgI doped silver borophosphate glasses, S. Kabi and A. Ghosh, Solid State Ionics, 262, 778 (2014).
 
Glass-crystal transition in silver iodide doped silver selenium molybdate glasses B. Deb and A. Ghosh, EPL-Europhys. Lett. 104, 56003 (2013).
 
Correlation of ion dynamics with characteristic length scales and network structural units in bismuth borate glasses, A. Shaw and A. Ghosh, J. Chem. Phys. 139, 114503 (2013).
 
Electrical and dielectric properties of silver iodide doped selenium molybdate glassy conductors, A. Palui, B. Deb and A. Ghosh, J. Appl. Phys. 114, 084104 (2013).
 
Conduction and relaxation mechanisms in bismuth doped La2Mo2O9 ionic conductors, T. Paul and A. Ghosh, J. Appl. Phys. 114, 164101 (2013).
 
Microstructure of Li(Mn1/3Ni1/3Co1/3)O2 cathode material for lithium ion battery: Dependence on calcination and heat-treatment temperature, S. Kabi and A. Ghosh, Mater. Res. Bull., 48, 3405 (2013).
 
Correlation of microscopic length scales of ion dynamics with network structure in lithium iodide doped lithium metaphosphate glasses A. Shaw and A. Ghosh, EPL – Europhys. Lett. 100, 66003 (2012).
 
Silver ion dynamics in mixed network former glasses: Evidence of correlation with characteristic lengths and network structure, S. Kabi and A. Ghosh, EPL – Europhys. Lett., 100, 26007 (2012).
 
Correlation of macroscopic ion dynamics with microscopic length scale and modification of network structure in mixed network former molybdophosphate glasses, B. Deb and A. Ghosh, EPL– Europhys. Lett. 97, 16001(2012).
 
Transport properties of silver selenomolybdate glassy ionic conductors, B. Deb and A. Ghosh, J. Appl. Phys., 112, 094110 (2012).
 
Correlation of structure and dielectric properties of silver selenomolybdate glasses, B. Deb and A. Ghosh, J. Appl. Phys. 112, 024102 (2012).
 
Influence of immobile ions on the length scale of ion transport in conducting phosphate glasses, A. Shaw and A. Ghosh, J. Phys. Chem. C 116, 24255 (2012).
 
Microstructure and optical properties of CdI2 doped silver vanadate glass- nanocomposites, S. Kabi and A. Ghosh, Mater. Res. Bull. 47, 3195 (2012).
 
Structural investigation on silver phosphate glasses embedded with nanoparticles, S. Kabi and A. Ghosh, J. Alloys. Comp. 520, 238 (2012).
 
Dielectric permittivity and electric modulus of polyethylene oxide (PEO)-LiClO4 composite electrolytes, A. Karmakar and A. Ghosh, Current Appl. Phys., 12, 539 (2012).
 
Charge carrier dynamics and relaxation in (polyethylene oxide–lithium-salt)-based polymer electrolyte containing 1-butyl-1-methylpyrrolidinium bis(trifluoromethyl sulfonyl)imide as ionic liquid, A. Karmakar and A. Ghosh, Phys. Rev. E, 84, 051802 (2011).
 
Broadband conductivity spectra of fast-ion-conducting silver selenite glasses: Dependence on power law and scaling, B. Deb, S. Bhattacharya and A. Ghosh, EPL– Europhys. Lett. 96, 37005 (2011).
 
Crystallization kinetics in selenium molybdate molecular glasses, B. Deb and A. Ghosh, EPL– Europhys. Lett. 95, 26002 (2011).
 
Tunneling conductivity of lithiated transition metal oxide cathode Li0.9[Ni1/3Mn1/3Co1/3]O1.95, S. Kabi and A. Ghosh, Eur. Phys. J. B, 79, 377 (2011).
 
Ac conductivity and relaxation in CdO doped PEO-LiI nanocomposite electrolyte A. Karmakar and A. Ghosh, J. Appl. Phys., 110, 034101 (2011).
 
Silver ion dynamics in Ag2S doped silver molybdate glass-nanocomposites: correlation of conductivity and scaling with structure, B. Deb and A. Ghosh, J. Phys. Chem. C, 115, 14141 (2011).
 
Correlation of structure and electrical conductivity of CdI2 doped silver borophosphate glass and nanocomposite, S. Kabi and A. Ghosh, J. Phys. Chem. C 115, 9670 (2011).
 
Poly Ethylene Oxide (PEO)-LiI Polymer Electrolytes Embedded with CdO Nanoparticles, A. Karmakar and A. Ghosh, J. Nanoparticle. Res., 13, 2989 (2011).
 
Dynamics of Ag+ ions and immobile salt effect in CdI2 doped silver phosphate glasses S. Kabi and A. Ghosh, Solid State Ionics, 187, 39 (2011).
 
Structure and dielectric constant of silver molybdophosphate mixed network former glasses, B. Deb and A. Ghosh, J. Alloys. Comp. 509, 8251 (2011).
 
Structural study of Ag2S doped silver molybdate glass-nanocomposites, B. Deb and A. Ghosh, J. Alloys. Comp. 509, 2256 (2011).
 
Dielectric and conductivity relaxation in superionic AgI-Ag2O-SeO2 glasses B. Deb and A. Ghosh, J. Appl. Phys., 108, 074104 (2010).
 
Polaron conduction in Lix[Ni1/3Mn1/3Co1/3]O2-δ (x=1, 0.9 and δ= 0, 0.05) cathodes , S. Kabi and A. Ghosh, J. Appl. Phys. 107, 103715 (2010).
 
A comparison of ion transport in different Poly Ethylene Oxide (PEO) – lithium salt composite electrolytes, A. Karmakar and A. Ghosh, J. Appl. Phys. 107, 104113 (2010).
 
Relaxation dynamics in superionic molybdate glass-nanocomposites embedded with α-AgI nanoparticless S. Bhattacharya and A. Ghosh, J. Phys. Chem. C, 114, 5745 (2010).
 
Synthesis and characterization of AgI-Ag2O-SeO2 glass-nanocomposites embedded with β-AgI and Ag2SeO3 nanocrystals, B. Deb and A. Ghosh, J. Nanosci. Nanotechnol. 10, 6752 (2010).
 
Optical and other structural properties of some zinc vanadate semiconducting glasses, A. Ghosh, S. Bhattacharya and A. Ghosh, J. Alloys Compd. 490, 480 (2010).
 
Tunneling of large polarons in zinc vanadate semiconducting glasses, A. Ghosh, S. Bhattacharya and A. Ghosh, J. Phys: Condens. Matter, 21, 145802 (2009).
 
Electrical relaxation in CdI2 doped silver vanadate superionic glasses, A. Ghosh, D. Dutta, S. Kabi and A. Ghosh, J. Appl. Phys., 105, 064107 (2009).
 
Role of Ag2S nanoparticles on the dynamics of silver ions in silver-ultraphosphate glass nanocomposites, D. Dutta and A. Ghosh, J. Phys. Chem. C, 113, 9040 (2009).
 
Growth of a-AgI nanoparticles and b-AgI nanowires in superionic selenite glasses, S. Bhattacharya and A. Ghosh, Adv. Sci. Lett., 2, 55 (2009).
 
Electrical properties of nanocrystalline magnetite with large non-stiochiometry near Verwery transition, P. Brahma, S. Dutta, D. Dutta, S. Banerjee, A. Ghosh and D. Chakravorty, J. Magn. Magn. Mater. 321, 1045 (2009).
 
Observation of microwave plasmons in one-dimensional conjugated polymer chain, B. Mondal, D. Majumdar, A. Ghosh and S. K. Saha, Appl. Phys. Lett., 94, 183109 (2009).
 
Metallic silver nanowire of high aspect ratio: Formation and mechanism D. Dutta and A. Ghosh, Adv. Sci. Lett., 2, 381 (2009).
 
Correlation of ion dynamics and structure in superionic glasses and nanocomposites, D. Dutta and A. Ghosh, J. Non-Cryst. Solids, 355, 1930 (2009).
 
Correlation of ion dynamics and structure in superionic silver tellurite glasses, D. Dutta and A. Ghosh, J. Chem. Phys. 128, 044511 (2008).
 
Frequency dependent conductivity of cadmium vanadate glassy semiconductor, A. Ghosh, S. Bhattacharya, D. P. Bhattacharya and A. Ghosh, J. Phys.: Condens. Matter, 20, 035203 (2008).
 
Hopping conduction in zinc vanadate semiconducting glasses, A. Ghosh, S. Bhattacharya, D. P. Bhattacharya and A. Ghosh, J. Appl. Phys., 103, 083703 (2008)
 
Effect of ZnO nanoparticles on the structure and ionic relaxation in PEO-LiI polymer electrolytes, S. Bhattacharya and A. Ghosh, J. Nanosci. Nanotechnol., 8, 1922 (2008).
 
Relaxation dynamics in superionic glass-nanocomposites, S. Bhattacharya and A. Ghosh, J. Am. Ceram. Soc., 91, 753 (2008).
 
Dielectric properties and phase transition of zinc tris(thiourea) sulfate single crystal, S. Moitra, S. Bhattacharya, T. Kar and A. Ghosh, Physica B, 403, 3244 (2008).
 
Silver molybdate nanoparticles, nanowires and nanorods embedded in glass- nanocomposites, S. Bhattacharya and A. Ghosh, Phys. Rev. B., 75, 092103 (2007).
 
Dynamics of Li+ ions in strontium metaphosphate glasses, A. Dutta and A. Ghosh, J. Chem. Phys. 127, 144504 (2007).
 
Relaxation dynamics of Ag4Te3O8 glass nanocomposites embedded with Ag2S nanoparticles, D. Dutta and A. Ghosh, J. Chem. Phys., 127, 044708 (2007).
 
Electrical conductivity and relaxation in mixed alkali tellurite glasses S. Ghosh and A. Ghosh, J. Chem. Phys.,126, 184509 (2007).
 
Electrical transport properties of semiconducting lithium molybdate glass – nanocomposites, S. Bhattacharya and A. Ghosh, J. Chem. Phys., 127, 194709 (2007).
 
Optical and other structural properties of cadmium vanadate glasses, A. Ghosh, S. Bhattacharya and A. Ghosh, J. Appl. Phys., 101, 083511 (2007).
 
DC electrical properties of cadmium vanadate glassy semiconductors: a comparison with traditional glasses, A. Ghosh, S. Bhattacharya, D. P. Bhattacharya and A. Ghosh, J. Phys: Condens. Matter, 19, 106222 (2007).
 
Giant dielectric permittivity in aligned silver nanowires grown within (AgI)-(AgPO3) glass, P. K. Mukherjee, D. Dutta, S. Bhattacharya, A. Ghosh and D. Chakravorty, J. Phys. Chem. C, 111, 3914 (2007).
 
Relaxation in mixed alkali fluoride glasses, S. Ghosh and A. Ghosh, J. Non-Cryst. Solids, 353, 1287 (2007).
 
Structural and optical properties of lithium barium bismuthate glasses, A. Dutta and A. Ghosh, J. Non-Cryst. Solids, 353, 1333 (2007).
 
Conductivity relaxation in iodomolybdate glass-nanocomposites embedded with ZnO nanoparticles and a-AgI nanocrystals. S. Bhattacharya and A. Ghosh, J. Nanosci. Nanotechnol. 7, 3684 (2007).
 
Relaxation dynamics of Ag+ ions in superionic glass nanocomposites embedded with ZnO nanoparticles, S. Bhattacharya and A. Ghosh, Phys. Rev. B, 74, 184308 (2006).
 
Dynamics of Ag+ ions in Ag2S doped superionic AgPO3 glasses, S. Bhattacharya, D. Dutta and A. Ghosh, Phys. Rev. B, 73, 104201 (2006).
 
Dynamics of lithium ions in bismuthate glasses: Influence of strontium ions, A. Dutta and A. Ghosh, J. Chem. Phys., 125, 054508 (2006).
 
Transport properties of CdS nanowire embedded poly (3-hexyl thiophene) nanocomposites, S. Bhattacharya, S. Malik, A. K. Nandi and A. Ghosh, J. Chem. Phys., 125, 174717 (2006).
 
Formation of ZnO nanoparticles and -AgI nanocrystals embedded in superionic glass nanocomposites, S. Bhattacharya and A. Ghosh, Appl. Phys. Lett., 88, 133122 (2006).
 
Electrical properties of ion conducting molybdate glasses, S. Bhattacharya and A. Ghosh, J. Appl. Phys., 100, 114119 (2006).
 
Relaxation of silver ions in superionic borate glasses, S. Bhattacharya and A. Ghosh, Chem. Phys. Lett., 424, 295 (2006).
 
Mixed mobile ion effect and relaxation dynamics in fluoride glasses S. Ghosh and A. Ghosh, Phys. Chem. Glasses: European J. Glass Sci. and Technol. Part.B, 47, 206 (2006).
 
Structure and relaxation dynamics in superionic glasses, A. Ghosh and S. Bhattacharya, Materials Science and Technology, 1, 337 (2006).
 
Relaxation dynamics in disordered superionic materials, A. Ghosh and S. Bhattacharya, in “Condensed Matter at the Leading Edge” (Nova Science Publishers, New York, USA, 2006), p. 310 - 325.
 
Relaxation dynamics in superionic glasses, A. Ghosh and S. Bhattacharya, in “Solid State Ionics and Its Applications”, Vol. 1 (Macmillan India Ltd., New Delhi, India, 2006) p. 148-166.
 
Effect of alkaline earth ions on the dynamics of lithium ions in bismuthate glasses, A. Dutta and A. Ghosh, Phys. Rev. B, 72, 224203 (2005).
 
Dynamics of Ag+ ions in binary tellurite glasses, D. Dutta and A. Ghosh, Phys. Rev. B, 72, 024201 (2005).
 
Relaxation dynamics in AgI doped silver vanadate superionic glasses, S. Bhattacharya and A. Ghosh, J. Chem. Phys. 123, 124514 (2005).
 
Dynamics of lithium ions in calcium bismuthate glasses, A. Dutta and A. Ghosh, J. Chem. Phys., 122, 234510 (2005).
 
Transport properties of AgI doped silver molybdate superionic glass nanocomposites, S. Bhattacharya and A. Ghosh, J. Phys.: Condens. Matter, 17, 5655 (2005).
 
Mixed mobile ion effect in fluorozincate glasses, S. Ghosh and A. Ghosh, J. Phys.: Condens. Matter, 17, 3463 (2005).
 
Ion dynamics and mixed mobile ion effect in fluoride glasses, S. Ghosh and A. Ghosh, J. Appl. Phys., 97, 123525 (2005).
 
Relaxation of silver ions in fast ion conducting molybdate glasses, S. Bhattacharya and A. Ghosh, Solid State Ionics, 176, 1243 (2005).
 
Ionic conductivity of Li2O-BaO-Bi2O3 glasses, A. Dutta and A. Ghosh, J. Non-Cryst. Solids, 351, 203 (2005).
 
Conductivity spectra in fast ion conducting glasses: Mobile ions contributing to transport processes, S. Bhattacharya and A. Ghosh, Phys. Rev. B, 70, 172203 (2004).
 
Ionic dynamics in mixed alkali cadmium fluoride glasses, S. Ghosh and A. Ghosh, J. Chem. Phys. 121, 9611 (2004).
 
Li+ ion migration in strontium bismuthate glasses, Dutta and A. Ghosh, J. Phys.: Condens. Matter, 16, 7895 (2004).
 
Ionic relaxation in AgI-Ag2¬O-TeO¬2 glasses, D. Dutta and A. Ghosh, J. Phys.: Condens. Matter, 16, 2617 (2004).
 
Ionic conductivity and relaxation dynamics in fast ion conducting borate glasses, S. Bhattacharya and A. Ghosh, Defect and Diffusion Forum, 229, 29 (2004).
 
ac relaxation in silver vanadate glasses, S. Bhattacharya and A. Ghosh, Phys. Rev. B , 68, 224202 (2003).
 
Comment on ac conductivity of alkali tellurite glasses: Deviations from Summerfield scaling, A. Ghosh and S. Bhattacharya, Phys. Rev. Lett., 91, 049601 (2003).
 
Relaxation dynamics of charge carriers in some mixed alkali fluoride glasses, S. Ghosh and A. Ghosh, J. Chem. Phys. 119, 9106 (2003).
 
Environment of lead cations in oxide glasses probed by x-ray diffraction, U. Hoppe, R. Kranold, A. Ghosh, C. Landron, J. Neuefeind and P. Jovari, J. Non-Cryst. Solids, 328, 146 (2003).
 
Conductivity relaxation in some fast ion conducting AgI-Ag2O-V2O5 glasses, S. Bhattacharya and A. Ghosh, Solid State Ionics, 161, 61 (2003).
 
Glass and glass-transition, A. Ghosh, Indian Sci. Cruiser, 17, 36 (2003).
 
Mixed mobile ion effect in fluoride glasses, S. Ghosh and A. Ghosh, Phys. Rev. B 66, 132204 (2002).
 
Polaron transport in semiconducting silver vanadate glasses, S. Bhattacharya and A. Ghosh, Phys. Rev. B 66, 132203 (2002).
 
Correlation of relaxation dynamics and conductivity spectra with cation constriction in ion-conducting glasses, A. Pan and A. Ghosh, Phys. Rev. B 66, 012301 (2002).
 
Conductivity relaxation in mixed alkali fluoride glasses, S. Ghosh and A. Ghosh, J. Phys: Condens. Matter, 14, 2531 (2002).
 
Structure and optical properties of lithium bismuthate glasses, A. Pan and A. Ghosh, J. Mater. Res., 17, 1941 (2002).
 
X-ray and neutron scattering studies of the structure of strontium vanadate glasses, U. Hoppe, R. Kranold, A. Ghosh, J. Neuefeind and D.T. Bowron, Phys. Chem. Glasses, 43C, 1 (2002).
 
Electrical conductivity and conductivity relaxation in mixed alkali fluoride glasses, S. Ghosh and A. Ghosh, Solid State Ionics, 149, 67 (2002).
 
New fast-ion-conducting glasses in the system of xAgI-(1-x)[0.30AgO1/2-0.35Bi¬2O3-0.35PbO], A. Pan and A. Ghosh, J. Mater. Sci. Lett., 21, 395 (2002).
 
Relaxation dynamics of charge carriers in fluoroaluminozincate glasses, M. Sural and A. Ghosh, Phys. Rev. B 64, 144203 (2001).
 
Conductivity spectra of sodium fluorozirconate glasses. A. Ghosh and M. Sural, J. Chem. Phys. 114, 3243 (2001).
 
Ac conductivity of strontium vanadate glasses, S. Sen and A. Ghosh, J. Phys: Condens. Matter, 13, 1973 (2001)
 
Ionic conductivity and relaxation in ZrF4-BaF2-YF3 glasses: effect of substitution of BaF2 by NaF, M. Sural and A. Ghosh, J. Non-Cryst. Solids, 291, 127 (2001).
 
Electrical transport properties of a supramolecular assembly, A. Pan, A. Ghosh, S.Chowdhury and D. Datta, Inorg. Chem. Com. 4, 507 (2001).
 
Transport mechanism in amorphous Bi2CuO4: its temperature dependence, A. Ghosh and M. Sural, Solid State Commun. 117, 349 (2001).
 
Scaling of the conductivity spectra in ionic glasses: Dependence on the structure, A. Ghosh and A. Pan, Phys. Rev. Lett., 84, 2188 (2000).
 
Relaxation dynamics of lithium ions in lead-bismuthate glasses, A. Pan and A. Ghosh, Phys. Rev. B 62, 3190 (2000).
 
Dependence of the conductivity on the concentration and the hopping frequency of charge carriers in fluoride glasses, M. Sural and A. Ghosh, Phys. Rev. B 61, 8610 (2000).
 
Dynamics of lithium ions in bismuthate glasses, A. Pan and A. Ghosh, J. Chem. Phys. 112, 1503 (2000).
 
A new family of lead-bismuthate glass with a large transmitting window, A. Pan and A. Ghosh, J. Non-Cryst Solids, 271, 157 (2000).
 
Electrical properties of semiconducting barium vanadate glasses, S. Sen and A. Ghosh, J. Appl. Phys. 87, 3355 (2000).
 
Structural properties of strontium vanadate glasses, S. Sen and A. Ghosh, J. Mater. Res. 15, 995 (2000).
 
Ionic conductivity and relaxation in ZnF2-AlF3-PbF2-LiF glasses, M. Sural and A. Ghosh, Solid State Ionics, 130, 259 (2000).
 
New fluoride glasses in the system ZnF2-AlF3-PbF2-LiF, M. Sural and A. Ghosh, J. Mater. Sci. Lett. 19, 41 (2000).
 
Ionic conductivity and relaxation dynamics in lithium tellurite glasses, A. Pan and A. Ghosh, Phys. Rev. B 60, 3224 (1999).
 
Polaronic transport properties of some vanadate glasses: Effect of alkali earth oxide modifiers, S. Sen and A. Ghosh, Phys. Rev. B 60, 15143 (1999).
 
Activation energy and conductivity relaxation in sodium tellurite glasses, A. Pan and A. Ghosh, Phys. Rev. B 59, 899 (1999).
 
A new scaling property of fluoride glasses: concentration and temperature independence of the conductivity spectra, A. Ghosh and M. Sural, Europhys. Lett. 47, 688 (1999).
 
Charge carrier transport with weak coupling in BaBiO3, A. Ghosh, Solid State Commun. 112, 45 (1999).
 
Dielectric and conductivity relaxation in lead vanadate glasses, S. Mandal and A. Ghosh, Philos. Mag. B, 79, 1175 (1999).
 
Semiconducting properties of magnesium vanadate glasses, S. Sen and A. Ghosh, J. Appl. Phys. 86, 2078 (1999).
 
Conductivity relaxation in ZrF4-BaF2-YF3-NaF glasses, M. Sural and A. Ghosh, J. Phys: Condens. Matter, 11, 3315 (1999).
 
Hopping conduction in calcium vanadate semiconducting glasses, S. Sen and A. Ghosh, J. Phys: Condens. Matter, 11, 8061 (1999).
 
Multiphonon hopping transport in strontium vanadate glasses, S. Sen and A. Ghosh, J. Phys: Condens. Matter, 11, 1529 (1999).
 
Structure and other physical properties of magnesium vanadate glasses, S. Sen and A. Ghosh, J. Non-Cryst. Solids, 256, 29 (1999).
 
Conductivity and relaxation in ZrF4-BaF2-YF3-LiF glasses: effect of substitution of BaF2 by LiF, M. Sural and A. Ghosh, Solid State Ionics, 126, 315 (1999).
 
Conductivity relaxation in zirconium fluoride glasses: effect of substitution of Zr4+ by Y3+ ions, M. Sural and A. Ghosh, Solid State Ionics, 120, 27 (1999).
 
Electrical conductivity and conductivity relaxation in ZrF4-BaF2-YF3-LiF glasses, M.Sural and A.Ghosh, J. Phys.: Condens. Matter, 10, 10577 (1998).
 
Transport properties of semiconducting Pb2Sr2CaCu3O8 glass, M.Sural and A.Ghosh, J. Phys.: Condens. Matter, 10, 9413 (1998).
 
Electrical properties of some alkaline earth vanadate glasses, A. Ghosh, M. Sural and S. Sen, J. Phys.: Condens. Matter, 10, 2578 (1998).
 
Multiphonon hopping transport in Bi2CuO4 single crystal, A. Ghosh and S. Hazra, Solid State Commun., 106, 677 (1998).
 
Electrical relaxation mechanism in unconventional bismuth cuprate glasses, S. Hazra and A. Ghosh, J. Appl. Phys., 84, 987 (1998).
 
Properties of unconventional lithium bismuthate glass, S. Hazra, S. Mandal and A. Ghosh, Phys. Rev. B 56, 8021 (1997).
 
Ac relaxation in some cuprate glasses, S. Hazra and A. Ghosh, Phys. Rev. B 55, 6278 (1997).
 
Comment on electrical and dielectric properties of Bi3Sr4Ca4Cu3Ox (3:4:4:3) glassy semiconductor, A. Ghosh, Phys. Rev. B 55, 2678 (1997).
 
Dielectric relaxation in lead iron oxide glass system, S. Mandal and A. Ghosh, J. Chem. Phys. 106, 6310 (1997).
 
Ac conductivity of bismuth cuprate glass, S. Hazra and A. Ghosh, J. Phys.: Condens. Matter, 9, 3981 (1997
 
Transport mechanism in nonconventional bismuth cuprate glasses, S. Hazra, S. Mandal and A. Ghosh, J. Chem. Phys. 104, 10041 (1996
 
Hopping conduction in unconventional lead cuprate glasses, S. Hazra and A. Ghosh, Phil. Mag. B, 74, 235 (1996).
 
Composition dependent ac electrical properties of lead vanadate glasses, S. Mandal and A. Ghosh, J. Phys. Soc. Jpn., 65, 818 (1996).
 
Electrical conduction in lead iron glasses, S. Mandal and A. Ghosh, J. Phys.: Condens. Matter, 8, 829 (1996).
 
Classical hopping in sol-gel cobalt silicate glasses, S. Hazra, A. Ghosh and D. Chakravorty, J. Phys.: Condens. Matter, 8, 10278 (1996).
 
Thermoelectric power of unconventional lead vanadate glasses, S. Mandal, D. Banerjee, R. Bhattacharya and A. Ghosh, J. Phys.: Condens. Matter, 8, 2865 (1996).
 
Structure and properties of unconventional glasses in the binary bismuth cuprate system, S. Hazra and A. Ghosh, Phys. Rev. B 51, 851 (1995).
 
Transport properties semiconducting ternary vanadate glasses, A. Ghosh, J. Chem. Phys. 102, 1385 (1995).
 
Transport properties of nonconventional lead cuprate glasses, S. Hazra and A. Ghosh, J. Chem. Phys. 103, 6270 (1995).
 
Structural properties of unconventional lead cuprate glasses, S. Hazra and A. Ghosh, J. Mater. Res., 10, 2374 (1995).
 
Electrical properties of sol-gel derived semiconducting cobalt silicate gel-glass, S. Hazra, A. Ghosh and D. Chakravorty, Solid State commun., 96, 507 (1995).
 
Ac electrical properties of lead iron oxide glasses, S. Mandal and A. Ghosh, J. Phys.: Condens. Matter, 7, 9543 (1995).
 
Structural studies of binary iron vanadate glass, S. Mandal S. Hazra, D. Das and A. Ghosh, J. Non-Cryst. Solids, 183, 315 (1995).
 
Glass formation domain and structural properties of nonconventional transition metal ion glass, A. Ghosh, Bull. Mater. Sci., 18, 53 (1995).
 
Electrical properties of lead vanadate glasses, S. Mandal and A. Ghosh, Phys. Rev. B 49, 3131 (1994).
 
Gel to glass conversion in cobalt silicate system, S. Hazra, A. Ghosh and D. Chakravorty, J. Mater. Sci. Lett. 13, 589 (1994).
 
Glass formation in PbO- Fe2O3 system with high PbO content, S. Mandal, S. Hazra and A. Ghosh, J. Mater. Sci. Lett. 13, 1054 (1994).
 
Structure and physical properties of glassy lead vanadates, S. Mandal and A. Ghosh, Phys. Rev. B 48, 9388 (1993).
 
Nonadiabatic polaron hopping in undoped and doped Bi2Sr2Ca2Cu3O10- glasses, A. Ghosh, Phys. Rev. B 48, 16081 (1993).
 
Complex ac conductivity of tellurium cuprate glassy semiconductors, A. Ghosh, Phys. Rev. B 47, 15537 (1993).
 
Electrical conduction in some sol-gel silicate glasses, A. Ghosh and D. Chakravorty, Phys. Rev. B 48, 5167 (1993).
 
Transport mechanism in semiconducting glassy silicon vanadates, A. Ghosh, J. Appl. Phys. 74, 3961 (1993).
 
Hopping transport in vanadium tellurite glasses containing antimony oxide, A. Ghosh, J. Phys. : Condens. Matter, 5, 4485 (1993).
 
Adiabatic hopping conduction in vanadium bismuth tellurite glasses, A. Ghosh, J. Phys. : Condens. Matter, 5, 8754 (1993).
 
Correlated barrier hopping in semiconducting tellurium molybdate glasses, A. Ghosh, Phys. Rev. B 45, 11318 (1992).
 
Polaron transport in iron vanadate glassy semiconductors, A. Ghosh, Phil. Mag. B, 63, 477 (1991).
 
Semiconducting properties of sol-gel derived vanadium silicate glasses, A. Ghosh and D. Chakravorty, Appl. Phys. Lett. 59, 855 (1991).
 
Transport properties of semiconducting CuO-Sb2O3 -P2O5 glasses, A. Ghosh and D. Chakravorty, J. Phys. : Condens. Matter, 3, 3335 (1991).
 
Transport properties of vanadium germanate glassy semiconductors, A. Ghosh, Phys. Rev. B 42, 5665 (1990).
 
Ac conduction in iron bismuthate glassy semiconductors, A. Ghosh, Phys. Rev. B 42, 1388 (1990).
 
Frequency dependent conductivity in bismuth vanadate glassy semiconductors, A. Ghosh, Phys. Rev. B 41, 1479 (1990).
 
Electrical transport properties of molybdenum tellurite glassy semiconductors, A. Ghosh, Phil. Mag. B, 61, 87 (1990).
 
Hopping transport in the precursor glasses of the superconducting system Bi-Sr-Ca-Cu-O, A. Ghosh and D. Chakravorty, J. Phys. : Condens. Matter, 2, 649 (1990).
 
Electrical conductivity of semiconducting CuO-Bi2O3-P2O5 glasses, A. Ghosh and D. Chakravorty, J. Phys. : Condens. Matter, 2, 931 (1990).
 
Ac conduction in semiconducting CuO-Bi2O3-P2O5 glasses, A. Ghosh and D. Chakravorty, J. Phys. : Condens. Matter, 2, 5365 (1990).
 
Ac conductivity of amorphous Fe2O3-Bi2O3 oxide glasses, B.K. Chaudhuri, K. Som and A. Ghosh, Jpn. J. Appl. Phys. 29, 120 (1990).
 
Electrical properties of semiconducting amorphous copper tellurites, A. Ghosh, J. Phys. : Condens. Matter, 1, 7818 (1989).
 
Temperature dependent thermoelectric power of semiconducting bismuth vanadate glasses, A. Ghosh, J. Appl. Phys., 65, 227 (1989).
 
Transport properties of iron bismuthate glassy semiconductors, A. Ghosh, J. Appl. Phys., 66, 2425 (1989).
 
Dielectric properties of iron bismuthate glass, A. Ghosh, J. Mater. Sci. Lett., 8, 1055 (1989).
 

Memory switching in bismuth vanadate glass,  A. Ghosh, J. Appl. Phys., 64, 2652 (1988).

 
Fundamental absorption edge in bismuth vanadate glasses, A. Ghosh, Physica Status Solidi (a), 110, 651 (1988).
 
Anomalous conductivity and other properties of vanadium phosphate glasses with Bi2O3 or Sb2O3, A. Ghosh and B.K.Chaudhuri, J. Non-Cryst. Solids, 103, 82 (1988)
 
Effect of iron ion impurity on the ESR and electrical properties of bismuth vanadate glasses, A. Ghosh and B.K.Chaudhuri, J. Mater. Sci. Lett., 7, 357 (1988).
 
Preparation and characterisation of binary V2O5 - Bi2O3 glasses, A. Ghosh and B.K.Chaudhuri, J. Mater. Sci. , 22, 2369 (1987).
 
Conductivity minimum of the V2O5 - P2O5 glasses containing Bi2O3 or Sb2O3, A. Ghosh and B.K.Chaudhuri, Key Engg. Mater. , 13-15, 515 (1987).
 
Dc conductivity of V2O5 - Bi2O3 glasses, A. Ghosh and B.K.Chaudhuri, J. Non-Cryst. Solids, 83, 151(1986).
 
Dc conductivity of V2O5 - P2O5 - M2O3 ( M = Bi and Sb ) glasses, A. Ghosh, B.K.Chaudhuri and S. P. Sengupta, Indian J. Phys. 60A, 401 (1986).
 
Low temperature DTA apparatus and the study of phase transition in some liquid and molecular crystals, A. Biswas, A. Ghosh and B. K. Chaudhuri, Indian J. Cryog. 10, 137, (1985).
 
Adiabatic hopping in V2O5 - Bi2O3 glasses, A.Ghosh and B.K.Chaudhuri, Indian J. Phys. 58A, 62 (1984).

 


Facilities

Facilities

Broadband dielectric spectrometer, LCR meter, Potentiostat / Galvanostat, Electrometer, Source meter, High temperature furnace, hydraulic crimping machine, Glove box, etc.

 


Project Students Alumni

Alumni

1. Dr. Sankar Mandal, sanakrrio@rediffmail.com

2. Dr. Satyajit Hazra, satyajit.hazra@saha.ac.in

3. Dr. Arvind Pan, arvindpan@yahoo.com

4. Dr. Mukul Sural, suralmukul@yahoo.com

5. Dr. Somaditya Sen, sens@iiti.ac.in

6. Dr. Surajit Ghosh, surajit@mail.vidyasagar.ac.in

7. Dr. Subhratanu Bhattachariya, subhratanu1@gmail.com

8. Dr. Abhigyan Dutta, adutta@phys.buruniv.ac.in

9. Dr. Pijush Kanti Mukherjee

10. Dr. Sanjeeb Bhattachariya, sanjib_ssp@yahoo.co.in

11. Dr. Dibakar Dutta, dutta_dibakar@yahoo.com

12. Dr. Soumyajyoti Kabi, soumya.kabi@gmail.com

13. Dr. Bijan Deb, debbijan@gmail.com

14. Dr. Arabinda Karmakar, arabinda83@gmail.com

15. Dr. Anirban Shaw,  sspas@iacs.res.in

16. Dr. Tanmoy Paul, tanmoy@campus.technion.ac.il

17. Dr. Sayan Das, sayan.das673@gmail.com

18. Arnab Palui

19. Pulak Pal


Honors/Awards

Honors/Awards

J. C. Bose National Fellow, Department of Science and Technology, Government of India,

Fellow of  Indian National Science Academy, New Delhi (India),

Fellow of Indian Academy of Sciences, Bangalore (India),

Fellow of West Bengal Academy of Science and Technology (India),

Fellow of Indian Institute of Ceramics (India),

Marie Curie Fellow (Commission of the European Community, Brussels), 

JSPS Invitation Fellow (Japan Society for the Promotion of Science, Japan) 

MRSI Medal (Materials Research Society of India), 

D. N. Agrawal Memorial Award (Indian Ceramic Society),

Chief Editor, Pramana – Journal of Physics (co-published by Indian Academy of Science & Springer),

Former Editor-in-Chief, Indian Journal of Physics (co-published by IACS & Springer)


Contact Us

Contact

 

Prof. Aswini Ghosh
J. C. Bose National Fellow,
School of Physical Sciences,
Indian Association for the Cultivation of Science,
Jadavpur, Klokata 700032, India

Phone: 91 33 24734971 (Ext. 1314)

Mobile: 9007357514

FAX: 91 33 24732805

sspag@iacs.res.in /aswghosh@gmail.com

 


Alumni