Publication
Publication
2025
162. Nitrogen, sulfur codoped MXene quantum dot – a superior HER electrocatalyst.
Arijit Kapuria, Tapas Kumar Mondal, Anup Debnath, Yan-Kuin Su, Shyamal K. Saha; Surfaces and Interfaces 72 (2025) 107284
161. Nitrogen and sulfur co-doped carbon quantum dot decorated Ti3C2Tx-MXene as electrode material for high-performance symmetric supercapacitors
Srija Ghosh, Sumanta Bera, Arijit Kapuria, Anup Debnath, Pratyusha Das, Yan-Kuin Su, Shyamal K. Saha; Nanoscale, 2025, 17, 15731–15748
160. Vertically tilted SnS2 grown on highly conductive Ti3C2Tx for electrochemical energy storage applications
Sumanta Bera; Gouranga Mahapatra; Anup Debnath, Yan-Kuin Su and Shyamal K. Saha; J of Energy Storage; 132 (2025) 117656
159. MXene derived metal organic framework@PANI heterostructure as a hybrid supercapacitor
Swarnalata Maity, Sumanta Bera, Arijit Kapuria, Anup Debnath, Suparna Das, Shyamal K. Saha Materials Today Chemistry, Volume 45, April 2025, 102690
158. “Fine tuning of supercapacitor performance through compositional and morphological engineering of siloxene-polyaniline composites”
Pratyusha Das, Shrestha Ghosh, Suparna Das, Yan-Kuin Su, Shyamal K. Saha; Materials Chemistry and Physics Volume 332, (2025), 130291
2024
157. “NdCoO3 nanoparticles grown on reduced graphene oxide sheets as an efficient electrocatalyst for hydrogen evolution reaction”
Gouranga Mahapatra, Sumanta Bera, Arijit Kapuria, Anup Debnath, Yan-Kuin Su, Shyamal K. Saha; International Journal of Hydrogen Energy 96 (2024) 612–621
156. “Giant enhancement of coercivity in β-Ni(OH)2 decorated Ti3C2Tx MXene nanosheets”
Anup Debnath, Sumanta Bera, Gouranga Mahapatra, Arijit Kapuria and Shyamal K Saha;
J. Phys. D: Appl. Phys. 57 (2024) 355002
155. “Interfacial negative magnetization in Ni encapsulated layer-tunable nested MoS2 nanostructure with robust memory applications”
Shatabda Bhattacharya, Tatsuhiko Ohto, Hirokazu Tada and Shyamal K. Saha Nanoscale Adv., 2024, 6, 1091–1105
154. Sulfur-tuned MoS2 quantum dot decorated Ti3C2Tx (MXene) electrode materials for high performance supercapacitor applications
Sumanta Bera, Tapas Kumar Mondal, Yan-Kuin Su, Shyamal Kumar Saha; Journal of alloys and Compounds, Journal of Alloys and Compounds 985 (2024) 174010.
2023
153. “Observation of ferrimagnetic ordering in chemically synthesized 2D Cr2S3 nanosheets”, Anup Debnath, Tuhina Mondal, Gouranga Mahapatra, Arijit Kapuria, Shyamal K Saha, Journal of Applied Physics, (2023) 133, 153907.
Tuhina Mondal, PoulamiHota, Koushik Sarkar, Anup Debnath, Bikash Kumar Shaw, Shyamal K Saha, New Journal of Chemistry, (2023), 47, 8102-8110.
151. “Facile in-situ growth of spore-like silica on layered MXene sheets for extraordinary Supercapacitor Applications”
Pratyusha Das, Tapas Kumar Mondal, Sumanta Bera, Suparna Das, Hao Lin Hsu, Yan-KuinSu, Shyamal K Saha, Electrochimica Acta 465, 142983 (2023).
150.“Solubility Tuning of Alkyl Amine Functionalized Carbon Quantum Dots for Selective Detection of Nitroexplosive”
Tapas Kumar Mondal, Arijit Kapuria, Milon Miah, Shyamal Kumar Saha
Carbon209, (2023), 117972.
149. “Polysulfide functionalized reduced graphene oxide for hydrogen evolution reaction and supercapacitor appilications”
Arijit Kapuria, Tapas Kumar Mondal, Bikash Kumar Shaw, Yan-KuinSu, Shyamal K Saha
International Journal of Hydrogen Energy48,(2023), 17014
148. “Magnetic Properties in atomic Co manipulated graphitic carbon nitride”
Sourav Singha, Chinmoy Majumder, Tapas Kumar Mondal, Anjan Mondal and Shyamal K Saha, Journal of Magnetism and Magnetic Materials 566 (2023) 170259
2022
147. “Mixed metal sulfides (FeNiS2) nanosheets decorated reduced graphene oxide for efficient electrode materials for supercapacitors”.
MilonMiah,PoulamiHota,Tapas KumarMondal, RuiChen,Shyamal KSaha. Journal of Alloys and Compounds, 933, 167648 (2022)
146. “Room temperature synthesis of GO/Ag2O nanocomposite: Broad spectral ranged solar photocatalyst and high efficacy antibiotic for waste water treatment”.
Kajari Dutta*, R Sherley Saraffin, Banadeep Dutta, Agnibho Datta, Arijit Kapuria, Swarnali Ghosh, Finaz Khan, Susmita Das, Shyamal Kumar Saha.
Journal of Environmental Chemical Engineering; 10, 2, pp. 107175 (2022)
145. Synthesis of new mixed metal oxide RuNi2O4 phase decorated on reduced graphene oxide for supercapaitor applications.
Sumanta Bera, Milon Miah, Tapas Kr. Mondal, Anup Debnath, Shyamal Kumar Saha
Electrochimica Acta424, pp.140666 (2022).
144. Observation of room temperature metal free ferromagnetism in sulfur doped graphitic carbon nitride.
Chinmoy Majumder, Tapas Kr. Mondal, ShatabdaBhattachrya, Shyamal Kumar Saha
Journal of Magnetism and Magnetic Materials; 559, pp. 169439 (2022) IF = 3.1
143. “The role of lone-pair electrons on electrocatalytic activity of copper antimony sulfide nanostructures”
PoulamiHota, Arijit Kapuria, Saptasree Bose, Dilip K Maiti, Shyamal Kumar Saha.
Materials Chemistry & Physics; 291, pp. 126676 (2022). IF = 4.78
142.“Eco-friendly hetero-system silver decorated nanocomposite zinc oxide/reduced graphene oxide: improved broad-ranged absorptivity and enhanced photocatalytic performance under white-light irradiation”.
R Sherley Saraffin, Arijit Kapuria, Shyamal Kumar Saha, Kajari Dutta.
Reaction Kinetics, Mechanisms and Catalysis; 135, pp. 2827–2850 (2022).
2021
141. Three-dimensional bundle-like multiwalled carbon nanotubes composite for supercapacitor electrode application,
H. L. Hsu, M. Miah, S. K. Saha, J. H. Chen, L. C. Chen, and S. Y. Hsu.
Mater. Today Chem., 2021, 22, 100569.
140. Melting of Hybrid Organic-Inorganic Perovskites
B K Shaw, A R Hughes, M Ducamp, S Moss, A Debnath, A F. Sapnik, M F. Thorne, L N McHugh, A Pugliese, D S. Keeble, P Chater, J M. Bermudez-Garcia, X Moya, S K Saha, D A Keen, F-X Coudert, F Blanc and T D Bennett* Nature Chemistry13, 778 (2021)
139. Ferromagnetism with high magnetoresistance in Ag decorated graphitic carbon nitride
Chinmoy Majumder, Shatabda Bhattacharya, Tapas Kumar Mondal and S K Saha
J. Magn. Magn. Mater.2021535, 167941
138. Ferromagnetic ordering in THAB exfoliated WS2 nanosheet
A. Debnath, B. K. Shaw, S. Bhattacharya, and S. K. Saha.
J. Phys. D: Appl. Phys, 2021, 54, 205001
137. Synthesis of freestanding 2D CuO nanosheets at room temperature through a simple
surfactant free co-precipitation process and its application as electrode material in
supercapacitors.
A. Ghosh, M. Miah, A. Bera, S. K. Saha and B. Ghosh.
J. Alloys Compd., 2021,862, 158549.
2020
136. Electrically Driven MOF-Based Blue to Yellow-White Tunable Light Emitting Diodes
F. S. Juang, M. Q. Yao, T. Mondal, and S. K. Saha.
IEEE Access 2020, 8, 216986-216993.
135. Transition from giant linear positive to negative magnetoresistance as a result of the metal
insulator transition in cobalt nanosheet decorated graphene with high coercivity.
C. Majumder, S. Bhattacharya, and S. K. Saha
J. Magn. Magn. Mater.,2020, 506, 166601.
134. Interesting photoluminescence behaviour in graphitic carbon nitride quantum dots attached
PbCrO4 colloidal nanostructures
T. K. Mondal and S. K. Saha.
New J. Chem.,2020, 44, 16110-16118
133. Near infrared to visible upconversion photoluminescence from Er/Yb co-doped MoS2
nanosheets with tunable thickness
D. Haldar, A. Ghosh, U. K. Ghorai, and S. K. Saha
Mater. Res. Bull,2020,129, 110879.
132. Luminescent Cd II metal–organic frameworks based on isoniazid using a mixed ligand
approach
A Husain, P. Rani, A. Sharma, T. Mondal, S. K. Saha, K. K. Bhasin, M. Trivedi, and G.
Kumar
CrystEngComm, 2020, 22, 5980-5986
131. Photoluminescence and photo-induced conductivity in 2D siloxene nanosheet for
optoelectronic applications
S. Mondal, T. K. Mondal, Y. K. Su, and S. K. Saha
J. Colloid Interface Sci.,2020, 562, 453-460
130. A MOF functionalized with CdTe quantum dots as an efficient white light emitting
phosphor material for applications in displays
T. Mondal, D. Haldar, A. Ghosh, U. K. Ghorai, and S. K. Saha
New J. Chem.,2020, 44, 55-63.
129. White light emission from single dye incorporated metal organic framework.
T. Mondal, S. Bose, A. Husain, U. K. Ghorai, and S. K. Saha.
Optical Materials 2020, 100, 109706.
128. Study of highly porous ZnO nanospheres embedded reduced graphene oxide for high
performance supercapacitor application.
M. Miah, T. K. Mondal, A. Ghosh, and S. K. Saha.
Electrochimica Acta 2020, 354, 136675.
127. Giant enhancement in coercivity of ferromagnetic α-Fe2O3 nanosheet grown on MoS2
A. Debnath, S. Bhattacharya, T. K. Mondal, H. Tada, and S. K. Saha.
J. Appl. Phys.,2020, 127, 013901.
126. Transition from antiferromagnetic to ferromagnetic β-Co (OH) 2 with higher Curie
temperature.
A. Debnath, S. Bhattacharya and S. K. Saha
J. Phys. D: Appl. Phys.2020, 53, 225004.
125. Ultra-small amorphous MoS2 decorated reduced graphene oxide for supercapacitor
application
P. Hota, M. Miah, S. Bose, D. Dinda, U. K. Ghorai, Y. K. Su, and S. K. Saha.
J Mater Sci Technol.2020, 40, 196-203.
2019
124. Facile Approach To Synthesize Nitrogen-and Oxygen-Rich Carbon Quantum Dots for pH
Sensor, Fluorescent Indicator, and Invisible Ink Applications
T. K. Mondal and S. K. Saha
ACS Sustain. Chem. Eng.,2019, 7, 19669-19678.
123. White light emitting lanthanide based carbon quantum dots as toxic Cr (VI) and pH sensor
T. K. Mondal, S. Mondal, U. K. Ghorai, and S. K. Saha
J. Colloid Interface Sci.,553 (2019): 177-185.
122. Realization of a ferromagnetic ordering in an ultrathin layer of antiferromagnetic β-Co
(OH)2 grown on a reduced graphene oxide sheet.
A. Debnath, and S. K. Saha.
In AIP Conference Proceedings, 2019, 2162, 020064.
121. Fe-intercalated few layers reduced graphene oxide: A unique material for supercapacitor
applications
M. Miah, T. K. Mondal, S. Bhattacharya, and S. K. Saha.
J. Appl. Phys.,2019, 126, 034901.
120. A green luminescent MoS2–CdTe hybrid nanostructure synthesized through surface charge
interaction
D. Haldar, S. Bose, A. Ghosh, S. K. Saha
Nanoscale Adv., 2019, 1, 1853
119. Anomalous large negative magneto resistance in transition metal decorated graphene:
evidence for electron-hole puddles
C. Majumder, S. Bhattacharya, S. K. Saha.
Phys. Rev. B 2019, 99, 045408
118. Epichlorohydrin functionalized graphene oxide for superior Li+ ion conduction and super
capacitor application
P. Hota, M. Miah, A. Gupta, D. Chakravorty, S. K. Saha
Mater. Chem. Phys, 2019, 223, 447-455
2018
117. Nickel-Doped Silver Sulfide: An Efficient Air-Stable Electrocatalyst for Hydrogen
Evolution from Neutral Water
P. Hota, S. Bose , D. Dinda, P. Das, U. K. Ghorai, S. Bag, S. Mondal, S. K. Saha.
ACS Omega, 2018, 3, 17070–17076
116. Dual emissive CQD-Tb nanocomposite as fluorescent indicator for highly selective visual
detection of Hg(II) in water
T. K. Mondal, U. K. Ghorai, S. K. Saha
ACS Omega 2018, 3, 11439-11446
115. Na+ ion migration on the surface of reduced graphene oxide
M. Banerjee, D. Chakravorty and S. K. Saha
J. Phys. D: Appl. Phys. 2018, 51, 325301
114. Induced ferromagnetism and metal-insulator transition due to a charge transfer effect in
silver nanoparticle decorated MoS2
S. Bag, S. Bhattacharya, D. Dinda, M. V. Jyothirmai, R. Thapa and S. K. Saha
Phys. Rev. B, 2018, 98, 014109
113. Defect induced photoluminescence in MoS2 quantum dots and effect of Eu3+/Tb3+ co doping towards efficient white light emission
D. Haldar, A. Ghosh, S. Bose, S. Mondal, U. K. Ghorai, S. K. Saha
Optical Materials 2018, 79, 12-20
112. Photo-induced conductivity in 2, 6-diaminopyridine functionalized graphene oxide
containing Eu2+ for optoelectronic applications
S. Mondal, A. Gupta, B. K. Shaw, S. K. Saha
Optical Materials 2017, 73, 555-562
111. Temperature dependent supercapacitive performance in La2O3 nano sheet decorated reduce graphene oxide
M. Miah, S. Bhattacharya, D. Dinda, S. K. Saha
Electrochimica Acta 2018, 260, 449-458
110. Nitrogen, sulphur co-doped graphene quantum dot: An excellent sensor fornitroexplosives
T. K. Mondal, D. Dinda, S. K. Saha
Sensors and Actuators B: Chemical 2018, 257, 586–593
109. Synthesis of multilayered structure of nanodimensional silica glass/reduced graphene oxide for advanced electrochemical applications
A. Ghosh, M. Miah, C. Majumder, S. Bag,D. Chakravorty andS. K. Saha
Nanoscale, 2018, 10, 5539
108. Pure white light emission from a rare earth-free intrinsic metal organic framework and its
application in a WLED
T. Mondal, S. Mondal, S. Bose, D. Sengupta, U. K. Ghorai and S. K. Saha
J. Mater. Chem. C 2018,6, 614-621
107. Synthesis of lithium superionic conductor by growth of a nanoglass within mesoporous silica SBA-15 template
S. Chatterjee, M. Miah, S. K. Saha, D. Chakravorty
Journal of Physics D: Applied Physics 2018, 51, 135301.
2017
106. Observation of ferromagnetic ordering in a stable α-Co(OH)2 phase grown on a MoS2surface
Anup Debnath, Shatabda Bhattacharya, and Shyamal K. Saha
Physical Review B2017, 96, 214433
105. Design of 2D Ferromagnets with High Exchange Bias in Fe-MoS2 Heterostructure for
Spintronic Applications
Shatabda Bhattacharya and Shyamal K. Saha
Macromol. Symp. 2017, 376, 1600183
104. Ferromagnetism in graphene due to charge transfer from atomic Co to graphene
P. Hota, A. J. Akhtar, S. Bhattacharya, M. Miah, and S. K. Saha;
Appl. Phys. Lett.2017, 111, 042402
103. NiO Nanoparticle Synthesis Using a Triblock Copolymer: Enhanced Magnetization and
High Specific Capacitance of Electrodes Prepared from the Powder
S. Chatterjee, R. Maiti, M. Miah, S. K. Saha,and D. Chakravorty;
ACS Omega 2017, 2, 283−289
102. Antiferro-ferromagnetic transition in ultrathin Ni(OH)2 layer grown on graphene surface and observation of interlayer exchange coupling in Ni(OH)2/graphene/Ni(OH)2 nanostructures;
S. Bhattacharya, E. M. Kumar, R. Thapa and S. K. Saha
Appl. Phys. Lett. 2017, 110, 032404
2016
101. Origin of high storage capacity in N-doped graphene quantum dots
M. Miah, S. Bhattacharya, A. Gupta, S. K. Saha
Electrochimica acta, 2016, 222, 709.
100.Amorphous molybdenum sulfide quantum dots: an efficient hydrogen evolution
electrocatalyst in neutral medium
D. Dinda, Md. E. Ahmed, S. Mandal, B. Mondal and S. K. Saha
J. Mater. Chem. A, 2016,4, 15486-15493
99.Highly luminescent N-doped carbon quantum dots from lemon juice with porphyrin-like
structures surrounded by graphitic network for sensing applications
T. K. Mondal, A. Gupta, B. K. Shaw, S. Mondal, U. K. Ghorai and S. K. Saha
RSC Adv., 2016,6, 59927-59934
98.Mononuclear manganese(III) complexes of bidentate NO donor Schiff base ligands:
synthesis, structural characterization, magnetic and catecholase studies
A. Dutta, S. Biswas, M. Dolai, B. K. Shaw, A. Mondal, S. K. Saha and M. Ali
RSC Adv., 2015,5, 23855-23864
97.Unique trapping of paddlewheel copper(II) carboxylate by ligand-bound {Cu2} fragments
for [Cu6] assembly
K. Chattopadhyay, B. K. Shaw, S. K. Saha and D. Ray
Dalton Trans., 2016,45, 6928-6938
96. Field-induced ferromagnetism due to magneto-striction in 1-D helical chains
B. K. Shaw, M. Das, A. Bhattacharyya, B. N. Ghosh, S. Roy,P. Mandal, K. Rissanen, S.
Chattopadhyay and S. K. Saha
RSC Adv., 2016,6, 22980-22988
95.High selectivity in water soluble MoS2 quantum dots for sensing nitro explosives
D. Haldar, D. Dinda and S. K. Saha
J. Mater. Chem. C, 2016,4, 6321-6326
94.TunableColor in 2,6-Diaminopyridine-Functionalized Graphene Oxide
S. Mondal, D. Dinda, B. K. Shaw, and S. K. Saha
J. Phys. Chem. C, 2016, 120 (20), 11085–11091
93. Piezomagnetic behaviour in α-Fe 2 O 3 nanofilms grown within nanochannels of Na-4
R. Maiti, S. Chatterjee, S.K. Saha, M. K. Mitra, D. Chakravorty
Journal of Magnetism and Magnetic Materials, 2016, 402, 64-68
92.Large magnetodielectric effect in composites of Fe2O3• SiO2nanoglass and mesoporous
silica
S. Chatterjee, R. Maiti, S.K. Saha, D. Chakravorty
J. Phys. D: Appl. Phys.,2016, 49, 255001-1-8
91. Realization of two-dimensional ferromagnetism with giant coercivity in ultrathin β-
Ni(OH)2 layers grown on a MoS2 surface
S. Bhattacharya, D. Dinda, B. K. Shaw, S. Dutta, and S. K. Saha
Physical Review B, 2016, 93, 184403
90.Synthesis of NiO nanoparticles by a Simple Chemical Method
Soumi Chatterjee, Ramaprasad Maiti, Shyamal Kumar Saha, Dipankar Chakravorty
60th DAE Solid State Physics Symposium 2015 (will be published in AIP Conference
Proceedings)
89.Fast Ion Conduction in Nanodimensional Lithium Silicate Glasses
S Chatterjee, R Maiti, S. K Saha, D Chakravorty
J. Phys. Chem. C, DOI: 10.1021/acs.jpcc.5b10883
2015
88. Strain-induced tunable band gap and morphology-dependent photocurrent in RGO-CdS
nanostructures.
Supriya Mondal, Suparna Sadhu, Shatabda Bhattacharya and Shyamal K. Saha.
J.Phys. chem.C., 2015,119, 27749.
87.Piezomagnetic behaviour in α-Fe2O3 nanofilms grown within nanochannels of Na-4mica
R. Maiti, S. Chatterjee, S.K. Saha, M. kumar Mitra, D. Chakravorty
Journal of Magnetism and Magnetic Materials, 2015, 402,64.
86.Enhancement of electrical conductivity in CoO-SiO2 nanoglasses and large
magnetodielectric effect in ZnO-nanoglass composites
S. Chatterjee, R Maiti, S.K. Saha, D. Chakravorty
Journal of Applied Physics,2015,117 (17), 174303.
85. Charge Transport in Polypyrrole Nanotubes.
DipanwitaMajumdar; Shyamal Kumar Saha.
Journal of Nanoscience and Nanotechnology, 2015,15,9975.
84. An unusual magnetic response in a p-stacked 66 - dia net structure of [4 + 2] copper(II)
Cubane
Mithun Das, Bikash Kumar Shaw, Biswa Nath Ghosh, Kari Rissanen, Shyamal K. Saha
and Shouvik Chattopadhyay
RSC Advances,2015, 5, 46869.
83. Anomalous enhancement in the magnetoconductance of graphene/CoFe2 O4 composite
due to spin–orbit coupling
Shatabda Bhattacharya, Ramaprasad Maiti, Moni Baskey Sen, Shyamal Kumar Sahaand
Dipankar Chakravorty
J. Phys. D: Appl.Phys., 2015, 48,435002
82.Thymine Functionalized Graphene Oxide for Fluorescence “Turn-off-on” Sensing of
Hg2+ and I–in Aqueous Medium.
DiptimanDinda, Bikash Kumar Shaw, and ShyamalKumar Saha.
ACS applied materials & interfaces. 2015,27, 14743-14749.
81. Effect of spin–orbit coupling on spin transport at graphene/transition metal interface
Sumit Mandal, Abu Jahid Akhtar, Bikash Kumar Shaw and Shyamal K. Saha,
Phys. Status Solidi: Rapid Res. Lett. 2015, 9, 544-549.
80. Sulfuric acid doped poly diaminopyridine/graphene composite to remove high concentration of toxic Cr(VI)
DiptimanDinda and Shyamal K Saha;
Journal of Hazardous Materials, 2015, 291, 93.
79. Role of trap states on storage capacity in a graphene/MoO3 2D electrode material
Shatabda Bhattacharya, DiptimanDinda and Shyamal K Saha;
J. Phys. D: Appl.Phys., 2015, 48, 145303.
78. Induced spin polarization effect in graphene by ferromagnetic nanocontact
Sumit Mandaland Shyamal K. Saha;
J. Appl. Phys, 2015, 117, 093910.
77. 1-aza-15-crown-5 functionalized graphene oxide for 2-dimensional graphene based Li+ ion conductor.
Moutusi Banerjee, Abhisek Gupta, Shyamal K. Saha, Dipankar Chakravorty;
Small, 2015,DOI: 10.1002/smll.201500200.
M. Das,B. K. Shaw, B. N. Ghosh, K. Rissanen, S. K. Saha, S. Chattopadhyay;
Journal of Coordination Chemistry, 2015, 68,1361.
A. Dutta, S. Biswas, M. Dolai, B. K. Shaw, A. Mondal, S. K. Saha, M. Ali;
RSC Advances,2015, 5, 30.
74. Trap induced tunable unusual dielectric properties in transition metal doped reduced graphene oxide.
Abu Jahid Akhtar, Abhisek Gupta, and Shyamal K. Saha;
RSC Advances, 2015, 5, 9594.
2014
73. Photoluminescence study in diaminobenzene functionalized graphene oxide
Abhisek Gupta and Shyamal K Saha;
AIP Conference Proceedings, 2014, 10, 1620.
72. Photoluminescence Study in Azo-pyridine functionalized Graphene oxide
Abhisek Gupta,BikashKumar Shaw and Shyamal K Saha;
ICEMP-2014,369-372.
71. Bright Green Photoluminescence in Aminoazobenzene Functionalized Graphene Oxide Abhisek Gupta, Bikash Kumar Shaw and Shyamal K Saha;
J. Phys. Chem. C, 2014, 118, (13), 6972.
DiptimanDinda, Abhisek Gupta, Bikash Kumar Shaw, Suparna Sadhu, and S. K. Saha;
ACS Appl. Mater. Interfaces, 2014, 6 (13), 10722.
69. Charge-transport and Magneto-dielectric Study inChelated Metal Complex for MultiferroicApplications
Bikash K Shaw and Shyamal K Saha;
ICEMP 2014(International Conference Proceedings).
68. Facile synthesis of bright luminescent N-doped graphene quantum dot
DiptimanDinda, Abhisek Gupta and Shymal K Saha;
Technology Letters, 2014, Vol.1, No.5, 18-21
67. Superparamagnetic Behaviour in Reduced Graphene Oxide-Cobalt Oxide Composite
Abu Jahid Akhtar and Shyamal K Saha,
ICEMP 2014 (International Conference Proceedings).
66. Photoluminescence study of optically active diaminopyridine intercalated graphene oxide.
Abhisek Gupta, BikashKumar Shaw and Shyamal K Saha;
RSC Advances, 2014, 4, 50542.
65. Anomalous magnetic behavior at the graphene/Co interface.
Sumit Mandal and Shyamal K. Saha ;
Appl. Phys. Lett., 2014, 105, 022402.
64. Field-Induced Ferromagnetism and Multiferroic Behavior in End-on Pseudohalide-Bridged Dinuclear Copper (II) Complexes with Tridentate Schiff Base Blocking Ligands.
S. Jana , B. K. Shaw , P. Bhowmik , K. Harms , M. G. B. Drew, S. Chattopadhyay , and S. K. Saha.
Inorg. Chem.,2014, 53 (16), 8723.
63. Frequency dependent magneto-transport in charge transfer Co (II) complex
B.K.Shaw and S.K. Saha;
Journal of Magnetism and Magnetic Materials 2014, 365,138.
62. Superior magnetic, dielectric, and magnetodielectric effects in graphene/ZnCo2O4nanocomposites
Moni Baskey, RamaprasadMaiti, Shyamal K Saha, and Dipankar Chakravorty;
Journal of Appl. Phys, 2014, 115, 094306.
2013
61. Unusual dielectric response in cobalt doped reduced graphene oxide
Abu J. Akhtar, Abhisek Gupta, Bikash K. Shaw, and Shyamal K. Saha;
Appl. Phys. Lett.2013,103, 242902.
60. A demonstration of half-metallicity in graphene using Mn3O4nanosheet
SumitMandal, MoniBaskey, Shyamal K. Saha;
Carbon, 2013, 61, 254.
59. Antiferro quadrupolar ordering in Fe intercalated few layers graphene
Abu Jahid Akhtar, Abhisek Gupta, Dipankar Chakravorty, and Shyamal K. Saha;
AIP Advances, (2013), 3, 072124.
58. Removal of toxic Cr(VI) by UV-active functionalized graphene oxide for water purification
DiptimanDinda, Abhisek Gupta and Shyamal K. Saha
J. Mater. Chem. A, 2013, 1, 11221.
57. In-situ growth of P3HT/grapheme composites for supercapacitor application
Abhishek Gupta, Abu Jahid Akhtar and Shyamal K Saha,
Materials Chemistry and Physics, 2013, 140, 616.
2012
56. Emerging Photoluminescence in azo-pyridine intercalated graphene oxide layers.
Abhisek Gupta and Shyamal K. Saha;
Nanoscale, 2012, 4, 6562.
55. Giant Magnetoresistance and Magneto-dielectric effects in charge transfer metal complex for Multiferroic Applications.
Bikash Kumar Shaw and Shyamal K. Saha;
J. Phys. Chem. C, 2012, 116 (39), 20700-20707.
54. One Ferromagnetic and Two Antiferromagnetic DinuclearNickel(II)Complexes Derived from a Tridentate N,N,O-Donor Schiff Base Ligand:A Density Functional Study of Magnetic Coupling
Rituparna Biswas, Sanjib Giri, Shyamal K. Saha, and Ashutosh Ghosh;
Eur. J. Inorg. Chem.2012, 2916.
53. Surfactant-assisted Hydrothermal synthesis of ferromagnetic CdS nanotips: optical and magnetic properties
B. Mondal and S. K. Saha;
J. Nanoparticle Research, 2012, 14, 1049
52. Ni/graphene/Ni nanostructures for spintronic applications
Sumit Mondal, Shyamal K. Saha,
Nanoscale, 2012, 4, 986.
51. A Graphite-like zero gap semiconductor with inter layer separation 2.8Å
Moni Baskey andShyamal K Saha;
Adv. Mater.2012, 24, 1589.
2011
50. Structure and magnetic properties of tetranuclear Cu(II) complex containing the 2-(pyridine-2-yliminomethyl)-phenol ligand
Sanjib Giri, Saptarshi Biswas, Michael G.B. Drew, Ashutosh Ghosh and S. K Saha; Inorg. Chim. Acta,2011, 368 (1), 152.
49. Magnetic Property of a Triply Bridged Linear Trinuclear Nickel Complex
Sanjib Giri, Rituparna Biswas, Ashutosh Ghosh, Shyamal K Saha
Polyhedron, 2011, 30 (16), 2717.
48. A new tetranuclear copper(II) complex with oximate bridges: Structure, magnetic properties and DFT study
Sanjib Giri,DebdulalMaity, Jeffrey F Godsell, Saibal Roy, Michael G.B. Drew, Ashutosh Ghosh, Gurucharan Mukhopadhyay and Shyamal K Saha;
Inorg. Chim. Acta,2011, 99,377 (1),
47. Epitaxial Growth of Crystalline Polyaniline on Reduced Graphene Oxide
D. Majumdar, M.Baskey and S. K. Saha;
Macromolecular Rapid Communication,2011, 32, 1277.
46. Room temperature spontaneous magnetization in a coordination π-π framework
S. Giri and S. K. Saha;
J Phys. Chem Lett.2011, 2, 1567.
45. Hydrothermal synthesis of silver nanoshells: Formation and Plasmon Hybridization
B. Mondal, S.K. Saha;
J. Mater. Sc.,2011, 46,5153.
44. Single/Multi tips for Magnetic Force Microscope without additional magnetic coating
S. K. Saha and B Mondal (applied for Indian patent)
2010
43. Superparamagnetic-to-diamagnetic transition in hydroxy bridged trinuclear copper complex nanorods;SanjibGiri and Shyamal K Saha;
J. Phys. Chem. C,2010, 114, 11723.
42. Graphene Quantum Sheets: A New Material for Spintronic Applications
S. K. Saha, M.Baskey and D. Majumdar;
Adv. Mater. 2010, 22, 5531.
41. Fabrication of SERS substrate using nanoporous anodic alumina template decorated by silvernanoparticles
B. Mondal and S. K. Saha;
Chem. Phys. Lett. 2010, 497,89.
40. Observation of ferroelectric response in conjugated polymer nanotubes
D. Majumdar and S. K. Saha;
Appl Phys Lett, 2010, 96, 183113.
39. Poly(3-hexylthiophene) nanotubes with superior electronic and optical properties
D. Majumdar and S. K. Saha;
Chem Phys Lett, 2010, 489, 219.
38. Synthesis of single crystalline micron-sized rectangular silver bar
B. Mondal, D.Majumdar and S. K. Saha;
J. Mater Research, 2010,25,383.
2009
37. Observation of microwave plasmons in one-dimensional conjugated polymer chain
B. Mondal, D. Majumdar, A. Ghosh and S. K. Saha;
Appl. Phys. Lett. 2009,94, 183109.
36. Mechanism of Ultrasonic Energy-Assisted Formation ofV-, Y-Shaped Nano-Structures in Conjugated Polymers
D. Majumdar, R. P. Maiti, S. Basu, and S. K. Saha;
J. Nano Sc & Nanotech. 2009,9,6896.
35. Multi quantum well structures in deep blue organic light emitting diode
S. K. Saha, Y. K. Su and W.L .Lin;
Europhysics Letters, 2009,85,18002.
2008
34. Nanodielectrics with giant permittivity
S. K. Saha;
Bul. Mater. Sci., 2008,31, 473
2006
33. One-dimensional organic giant dielectrics
S. K. Saha and D. Chakravorty;
Appl. Phys. Lett., 2006,89,043117.
32. Novel properties of glass-metal nanoconposites
D. Chakravorty, S. Basu, P. K. Mukherjee, S. K. Saha, B N Pal, A. Dan, S. Bhattacharya;
J. Non Cryst. Solids,2006,352,601.
31. A Nanocapacitor with giant dielectric permittivity
S. K. Saha, M.Dasilva, Q.Hang, T. Sands, D. B. Janes;
Nanotechnology, 2006,17,2284 (Nanowork News article).
2004
30. Current voltage characteristics of conducting polypyrrole nanotube by Atomic Force Microscope
S. K. Saha, Y. K. Su, C. L. Lin, D. W. Jaw;
Nanotechnology,2004,15, 66.
29. Observation of Giant dielectric constant in an assembly of ultra fine silver particles
S. K. Saha;
Phys. Rev. B, 2004,69,125416.
2003
28. Nanocomposites and nanowires
D. Chakravorty, K. Chatterjee, B. N. Pal, P. K. Mukherjee, S. Banerjee, T. K. Kundu, S. K. Bhattacharyya, and S. K .Saha;
Proceedings of the Asia PacificAcademy of Materials, June 2-6, 2003, Novosibirsk, Russia.
2002
27. Room temperature single electron tunneling in conducting polypyrrole nanotube
S K Saha;
Appl. Phys. Lett., 2002,81,3645 (appeared in virtual Journal in Nanoscience & Nanotechnology).
26. Room temperature metallic behaviour in nanophasepolypyrrole.
S. Bhattacharyya, S. K. Saha;
Appl. Phys. Lett.2002,80,4612.
2001
24. Temperature dependence of electroluminescence in MEH-poly (p-phenylenevinylene) light emitting diode.
S. K. Saha, Y. K. Su and F. S. Juang, M. Yokoyama;
J. Appl. Phys. 2001, 89,4019.
23. Temperature and field dependence quantum efficiency in tris-(8hydroxy) quinoline aluminum light-emitting diode.
S. K. Saha, Y. K. Su, F. S. Juang;
J. Appl. Phys., 2001, 89, 8175.
22. Temperature dependence of electroluminescence in tris-(8 hydroxy) quinoline aluminium light-emitting diode.
S. K. Saha, Y. K. Su, F. S. Juang;
IEEE Journal of Quantum Electronics, 2001,37,807.
21. Multiple hopping conduction in interpenetrating conducting composites of PPY and poly styrene-co-butyl acrylate.
S. Bhattacharyya,S. K. Saha, T. K. Mandal, B. M. Mandal and D. Chakravorty, K. Goswamy;
J.Appl.Phys. 2001, 89, 5547.
20. Frequency dependent conductivity of interpenetrating polymer network composites of polypyrrole and poly vinyl acetate.
S. Bhattacharyya, S. K. Saha, M.chakravorty, B. M. Mandal, and D.Chakravorty, K.Goswami;
J.PolymerScience:Part B:Polymer Physics, 2001,39, 1935.
2000
19. Silver nanowires grown in the pores of a silica gel.
S. Bhattacharyya, S. K. Saha, D. Chakravorty:
Appl. Physics Lett.,2000,77, 3770
(News India, brought by Nature and also appeared in virtual Journal in Nanoscience & Nanotechnology).
18. Temperature and field dependence of quantum efficiency in organic light emitting diode.
S. K. Saha, F. S.juang and Y. K. Su;
Oral presentation in International conference (Photonics Taiwan), July 26-28, 2000.
17. Effect of conjugation length on poly (p-phenylenevinylene)
S. K. Saha, Y. K. Su, M. Yokoyama, F. S. Juang and J. H. Liu,
Oral presentation in International conference on Photonics (Photonics 2000 in India)
16. (a) Nanowire formation in polymeric film
S. Bhattacharyya, S. K. Saha, D. Chakravorty;
Appl. Physics Lett., 2000,76,3896 (appeared in virtual Journal in Nanoscience & Nanotechnology).
16. (b) Temperature dependence of the electroluminescence for tris-(8-hydroxy) quinoline aluminum (Alq3) light emitting diode
S. K. Saha, F. S. Juang, Y. K. Su;
Proceedings, IEEE CLEO/QELS 2000 May 7-12, San Francisco, USA
15. Temperature and field dependence of electroluminescence in organic light emitting diode.
S. K. Saha, F. S.juang and Y. K. Su;
Proceedings, E-MRS-IUMRS-ICEM 2000 Meeting May 30-June 2, Strasbourg, France
14. Conductivity relaxation studies of interpenetrating conducting composites of PPY and poly styrene-co-butyl acrylate.
S. Bhattacharyya, S. K. Saha, D. Chakravorty;
J. Appl. Polymer Science Part B :Polymer Phys.,2000,38, 1193.
1999
13. Fabrication and characterization of organic light emitting diode
S K Saha, F S Juang Y K Su,
Oral presentation National conference on Optics and Photonics Taiwan 16-17 December, 1999.
1998
12. Phase separation and structural differences of alkali silicate glasses prepared by sol-gel and melt-quenched methods,
B. Roy, H. Jain, S. K. Saha and D. Chakravorty;
J. Am. Ceram. Soc., 1998.
1997
11. AC conduction of conducting PPY/PVME composite materials
S. K. Saha, T. K. Mandal, B. Mandal and D. Chakravorty;
J.Appl.Phys., 1997, 81,2646.
1995
10. Comparison of structure of alkali silicate glasses prepared by sol-gel and melt-quenched methods,
B. Roy, H. Jain, S. K. Saha and D. Chakravorty;
J.Non-Cryst.Solids,1995,183,268.
1994
9. Conductivity relaxation in germanate glasses,
S. K. Saha, A. K. Maiti and D. Chakravorty;
J.Appl.Phys., 1994,76,5874.
8. Relaxation studies on V2O5-TeO2 glasses using heterogeneous conductor model,
M. Pal, S. K. Saha and D. Chakravorty;
Bull.MaterialsScience,1994,17,411.
7. Inhomogeneous Laminar Conductor model for relaxation behaviour in oxide glasses,
S. K. Saha and D. Chakravorty,
J. Appl. Phys.1994, 75,467.
6. Inhomogeneous conductor model and fast ion conducting glasses,
S. K. Saha and D. Chakravorty;
J. Non-Cryst. Solids,1994,167, 89.
1993
5. Conductivity relaxation studies on sol-gel derived Li2O-SiO2 glasses by Heterogeneous conductor model,
S. K. Saha and D. Chakravorty;
J. Mater. Res.,1993,8, 1442.
4. Fractal growth of silver nanoclusters in a Polymer medium,
M Mukherjee, S. K. Saha and D. Chakravorty;
Appl. Phys.Letts., 1993,63, 42.
1992
3. Dielectric relaxation in Oxide glasses,
S. K. Saha and D. Chakravorty;
Jpn.J.Appl.Phys.,1992,31,3642.
2. Inhomogeneous Conductor Model for relaxation behaviour in oxide glasses,
S. K. Saha andD. Chakravorty,
Solid StateCommun. , 1992,82,715.
1990
1. Conductivity relaxation in sol-gel derived glasses,
S. K. Saha and D. Chakravorty,
J. Phys D: Appl. Phys, 1990,23, 1201.
1) Act as resource person in Faculty Development Program: “Recent trends in condensed matter physics” July 25-29, organized by the Department of Physics, Amity University.
2) Frontiers in nanomaterials, Refresher course, Burdwan University, 27.November, 2021
3) Optical properties in functionalized graphene, Invited presentation, June, 2019, National Formosa University, Taiwan
4) 2D Materials for energy applications; Invited presentation, March 14, 2019, Kun Shan University, Taiwan
5) Magnetic properties in 2D materials, Jan 4, 2019, Invited presentation, Osaka University, Japan
6) Recent Innovations in Advanced Materials (RIAM-2018): Physics of Advanced Materials,keynote lecture, 18-19 September 2018 at CSIR-AMPRI, Bhopal.
7) Functional properties in graphene; Tohoku University, Japan, Invited presentation, Feb 27, 2018
8) Magnetic and sensing applications in 2D Nanostructures; Osaka University, Japan “DST-JSPS Special Lecture Tour Program” March 10, 2017
9) Unusual magnetism in functional 2D materials; Tokyo Institute of Technology, Japan, “DST-JSPS Special Lecture Tour Program” March 08, 2017,
10) Functional 2D materials for sensing and catalytic applications; Tohoku University, Japan, “DST-JSPS Special Lecture Tour Program” March 06, 2017,
11) Versatile applications in 2D Materials; NIMS, Tsukuba, Japan, “DST-JSPS Special Lecture Tour Program” March 03, 2017
12) Functionalized 2D Materials for sensing applications; International conference on Fullerene, Graphene Nanotube (FNTG), March 02, 2017, University of Tokyo (Special Lecture)
13) Sensing properties of 2D Materials, Feb 9, 2017, Kun Shan University, Taiwan (Invited presentation)
14) Prospects of 2D Materials; Feb 08, 2017, National Yulin University, Taiwan (Invited presentation)
15) Functionalized graphene oxide for optoelectronic applications, Feb 06,.2017; National Formosa University, Taiwan (Invited presentation)
16) Unusual Magnetic aspects in 2D Materials; Jan 13-14, 2017, Symposium on Advances in Smart and Functional Materials CSIR-AMPRI (Planery presentation)
17) Magnetotransport Graphene/TM composites; Nano India 2015 (Jan 29- 31, 2015) Sastra Univarsity, ThanjavurTamilnadu, (Invited presentation)
18) Functionalized graphene oxide: A miracle material for spintronic, dielectric and optoelectronic applications; E-MRS Spring Meeting 2014, Lille, France, May 26-30, 2014 (Oral presentation)
19) MRSI Medal Lecture, Bangalore, Feb 14-16, 2014
20) Graphene as a promising material for spintronic and optoelectronic devices
58th DAE solid state physics symposium; December 17-21, 2013, Patiala, Chandigarh, (Invited presentation)
21) Some Unusual Properties of Graphene, National Workshop on Physics of Quantum Nano Systems 27th to 29th March 2012, Organized by Vidyasagar University (Invited presentation)
22) Graphene: A Miracle material in the 21st century
Modern Trends of Chemistry in the 21st century organized by St. Pauls College, Kolkata, 6-7 Feb, 2012 (Invited presentation)
23) Graphene: A promising material for spintronic devices
ICONSAT 2012, Jan 20-23, (Oral presentation)
24) Graphene: An alternative to Silicon
Invited presentation in Recent Trends On Novel Materials organized by Vidyasagar University, 29-30 November, 2011
25) Conjugated polymers for photovoltaic application
3 rd International Conference on Optoelectronics and Spectroscopy of Nanostructured Thin films and materials (Invited presentation) Beijing CapitalNormalUniversityOctober 15-19, 2007
26) Giant Dielectric permittivity: A promise for Nanocapacitor
8th International Conference on Nanostructured Materials (Oral Presentation) August 20-25, II Sc Bangalore 2006
27) Novel electrical properties of Nanowires and Nanotubes
S K Saha; 2nd Joint Indo-Taiwan Workshop on Nanoscience
March 9-10, 2006; Oral Presentation as Indian delegate
28) Fabrication of nanocapacitor
S K Saha; International conference on MEMS and Semiconductor Nanotechnology, December 20-22, 2005, IIT KGP Oral Presentation
29) Observation of Gor’kov-Eliashberg effect in one dimensional organic metals
S K Saha; International conference on nanoscience& Technology Dec. 17-20, Kolkata 2003, Oral Presentation
30) National conference on nano materials, March 6-7, 2003 Central Glass and Ceramic Research Institute, Kolkata, Oral Presentation
31) Second cross strait conference on nano science & technology, December 9-11, 2002, CityUniversity, Hong Kong, Oral Presentation