List of Publicationos in peer-reviewed international SCI journals :

 

Total citation ~ 7000,              h-index ~ 45,                          i-10 index ~ 150

Google Scholar

 

A. In international Peer-reviewed SCI journals:

Year – 2014

109. D. Sarkar, K. Mandal and M. Mandal, “Detail study of ac-dc magnetic and dye-absorption properties of Fe3O4 hollow spheres for biological and industrial applications”, Journal of Nanoscience and Nanotechnology, 14 (2014) 2307-2316.
110. A. Ghosh and K. Mandal, “Effect of structural disorder on the magnetocaloric properties of Ni-Mn-Sn alloy, Applied Physics Letters, 104 (2014), 031905.
111. A. Chaudhuri and K. Mandal, “Study of structural, ferromagnetic and ferroelectric properties of nanostructured barium doped Bismuth Ferrite” Journal of Magnetism and Magnetic Materials, 353,  2014, pp. 57-64.
112. A. K. Singh, B. Das, P. Sen, S. K. Bandyopadhyay and K. Mandal, “Effect of alpha-Particle Irradiation on the Magnetic Properties of Ni Nanowires”, IEEE Transaction on Magnetics, 50 (2014), 2302104.
113. B. Das, D. Sarkar, M. Mandal, P. Das, K. Mandal, “DNA Engineered Tri-Functional Ni–Au Nano-Chain: Understanding of Its Formation and Novel Magnetic Properties” Journal of Nanoscience and Nanotechnology, 14, (2014), pp. 2599-2605.
114. B. Das, M. Mandal, K. Mandal and P. Sen, “Influence of alumina membrane on magnetic properties for thermally annealed CoPt alloy nanowires” Colloids and Surfaces A: Physicochemical and Engineering Aspects, 443, (2014), 398-403.
115. S. Ghosh, G. G. Khan, K. Mandal, S. Thapa, P. M. G. Nambissan, “Positron annihilation studies of vacancy type defects and room temperature ferromagnetism in chemically synthesized Li doped ZnO nanocrystals”, Journal of Alloys and Compounds, 590 (2014), 396-405.
116. D. Pal, A. Ghosh, K. Mandal, “Large inverse magnetocaloric effect and magnetoresistance in  nickel rich Ni52Mn34Sn14 Heusler alloys”, Journal of Magnetism and Magnetic Materials, 360, (2014),183-187.
117. A. K. Singh and K. Mandal, “Effect of Aspect Ratio and Temperature on Magnetic Properties of Permalloy Nanowires”, Journal of Nanoscience and Nanotechnology, 14 (2014) 5036-5041.
118. R. Rakshit, M. Mandal, M. Pal and K. Mandal, “Tuning of magnetic properties of CoFe2O4 nanoparticles through charge tranfer effect” Applied Physics Letters, 104, (2014), 092412.
119. A. K. Singh, D. Sarkar, G. G. Khan and K. Mandal, “Hydrogenated NiO nanoblock architecture for high performance pseudocapacitor”, ACS Applied Materials & Interfaces, 6, (2014) 4684-4692.
120. M. Pal, R. Rakshit, M. Mandal and K. Mandal, “Surface Modification of alpha-Fe2O3 Nanoparticles to Develop as Intrinsic Photoluminescent Probe and Unprecedented Photocatalyst”, IEEE Transaction on Magnetics, 50 (2014), 5200404.  
121. A. K. Singh, D. Sarkar, G. G. Khan and K. Mandal,  “Designing one dimensional Co-Ni/Co3O4-NiO core/shell nano-heterostructure electrodes for high-performance pseudocapacitor, Applied Physics Letters, 104 (2014) 133904.
122. M. Pal, R. Rakshit and K. Mandal, “Surface modification of MnFe2O4 nanoparticles to impart intrinsic multiple fluorescence and novel photocatalytic properties” ACS Applied Materials & Interfaces, 6  (2014), 4903-4910.
123. S. Ghosh, P.M.G. Nambissan, S. Thapa, and K. Mandal, “Defect dynamics in Li substituted nanocrystalline ZnO: A spectroscopic analysis” Physica B: Condensed Matter 454 (2014), 102.
124. M. Pal, R. Rakshit and K. Mandal, “Facile functionalization of Fe2O3 nanoparticles to induce inherent photoluminescence and excellent photocatalytic acivity” Applied Physics Letters, 104 (2014), 233110.
125. A. Sarkar, A. K. Singh, G. G. Khan and K. Mandal, “TiO2/ZnO core/shell nano-heterostructure arrays as photo-electrodes with enhanced visible light photoelectrochemical performance” RSC ADVANCES, 4 (2014), 55629-55634.
126. A. Ghosh and K. Mandal, “A Comparative Study of Magnetocaloric Properties Between Ni-rich and Mn-rich Ni-Mn-Sn Alloys”, IEEE Transaction on Magnetics, 50, (2014), 2504304.


Year – 2015

127. A. Chaudhury and K. Mandal, “Large magnetoelectric properties in CoFe2O4:BaTiO3 core-shell nanocomposites” Journal of Magnetism and Magnetic Materials, 377, (2015), 441-445.
128. A. K. Singh and K. Mandal, “Engineering of high performance supercapacitor electrode based on Fe-Ni/Fe2O3-NiO core/shell hybrid nanostructures”, Journal of Applied Physics, 117 (2015), 105101.
129. A. Ghosh, K. Mandal, “Effect of Fe substitution on the magnetic and magnetocaloric properties of Mn-rich Mn-Ni-Fe-Sn off-stoichiometric Heusler alloys”, Journal of Applied Physics, 117, (2015),  093909.
130. M. Pal, A. K. Singh, R. Rakshit and K. Mandal, “Surface chemistry modulated introduction of multifunctionality within Co3O4 nanocubes”, RSC ADVANCES , 5, (2015), 16311-16318.  
131. R. Rakshit, M. Pal, M. Mandal, K. Mandal, “Charge transfer mediated magnetic response of cobalt ferrite nanoparticles”, Materials Letters, 151, (2015), 64-67.
132. R. Rakshit, D. Sarkar, M. Pal, K. Serita, M. Tonouchi and K. Mandal, “Acoustic vibration induced high electromagnetic responses of Fe3O4 nano-hollow spheres in THz regime”,
Journal of Physics D: Applied Physics, 48, (2015), 245301 (1-7).
133. M. Pal, A. Kundu, R. Rakshit, K. Mandal, “Ligand‐Induced Evolution of Intrinsic Fluorescence and Catalytic Activity from Cobalt Ferrite Nanoparticles”, Journal of Chemical Physics and Physical Chemistry (ChemPhysChem) 16, (2015), 1627-1634.
134. D. Sarkar, A. Ghosh, R. Rakshit and K. Mandal, “Magnetic properties of Fe3O4 nano-hollow spheres” Journal of Magnetism and Magnetic Materials, 393, (2015), 192-198.
135.  A. Sarkar, A. K. Singh, D. Sarkar, G. G. Khan, K. Mandal, “Three-dimensional nanoarchitecture of BiFeO3 anchored TiO2 nanotube arrays for electrochemical energy storage and solar energy conversion”, ACS Sustainable Chemistry & Engineering 3 (9), (2015),  2254-2263.
136. Arka Chaudhuri, Kalyan Mandal, “Comparative study of the Magnetoelectric Properties in Core-Shell Nanocomposites as well as mixture of CoFe2O4: BaTiO3” International Journal of Composite and Constituent Materials, 1(1), (2015), 1.
137. R Rakshit, M Pal, A Chaudhuri, M Mandal, K Mandal, “Facile synthesis of CoFe2O4 nano-hollow spheres for efficient bilirubin adsorption”, APL Materials 3 (11), (2015), 110701.


Year - 2016

138. R. Das, S. Sharma and K. Mandal, “Aliovalent Ba2+ doping: A way to reduce oxygen vacancy in multiferroic BiFeO3”, Journal of Magnetism and Magnetic Materials, 401, (2016), 129-137.

139. A Sarkar, G.G. Khan, A Chaudhuri, A Das, K Mandal, “Multifunctional BiFeO3/TiO2 nano-heterostructure: Photo-ferroelectricity, rectifying transport, and nonvolatile resistive switching property”, Applied Physics Letters, 108,  (2016), 033112.
140.  M Alam, K Mandal, GG Khan, “Double perovskite Y2NiMnO6 nanowires: high temperature ferromagnetic–ferroelectric multiferroic”, M Alam, K Mandal, GG Khan, RSC Advances 6 (2016), 62545-62549.
141. A. K. Singh, D. Sarkar, K. Karmakar, K. Mandal, and G. G. Khan, “High-Performance Supercapacitor Electrode Based on Cobalt Oxide–Manganese Dioxide–Nickel Oxide Ternary 1D Hybrid Nanotubes” ACS Applied Materials and Interfaces,  8, (2016), 20786-20792.
142. M Pal, R Rakshit, AK Singh, K Mandal, “Ultra high supercapacitance of ultra small Co3O4 nanocubes” Energy- The International Journal 103, (2016), 481-486.
143. R. Rakshit, K. Serita, M. Tonouchi, K. Mandal, “THz conductivity of semi-insulating and magnetic CoFe2O4 nano-hollow structures through thermally activated polaron”, Journal of Applied Physics, 120,  (2016), 203901.
144. A. Sarkar, K. Karmakar, A. K. Singh, K. Mandal and G. G. Khan, “Surface functionalized H2Ti3O7 nano wires engineered for visible-light photo switching, electrochemical water splitting, and photocatalysis” Physical Chemistry Chemical Physics, 18, (2016), 26900-26912.
145. K. Karmakar, A. Sarkar, K. Mandal and G. G. Khan, “Stable and Enhanced Visible-Light Water Electrolysis Using C, N, and S Surface Functionalized ZnO Nanorod Photoanodes: Engineering the Absorption and Electronic Structure” ACS Sustainable Chemistry & Engineering,  4, (2016), 5693-5702.
146. A. Ghosh, P. Sen and K. Mandal, “Measurement protocol dependent magnetocaloric properties in a Si-doped Mn-rich Mn-Ni-Sn-Si off-stoichiometric Heusler alloy”, Journal of Applied Physics, 119, (2016), 183902.
147. A. K. Singh and K. Mandal, “Growth and Magnetic Characterization of 1D Permalloy Nanowires Using Self Developed Anodic Aluminium Oxide Templates” Journal of Nanoscience and Nanotechnology, 16, (2016), 994-997.
148. M. Alam, K. Karmakar, M. Pal and K. Mandal, “Electrochemical supercapacitor based on double perovskite Y2NiMnO6 nanowires”, RSC Advances, 6, (2016), 114722.


Year - 2017

149. C. Dey, K. Baishya, A. Ghosh, M. Mandal Goswami, A. Ghosh, K. Mandal, “Improvement of drug delivery by hyperthermia treatment using magnetic cubic cobalt ferrite nanoparticles”, Journal of Magnetism and Magnetic Materials, 427, (2017), 168-174.
150. M. Alam, K. Karmakar, M. Pal and K. Mandal, “Electrochemical supercapacitor based on double perovskite Y2NiMnO6 nanowires”, RSC Advances, 6, (2016), 114722.
151. S. Arumugam, S. Ghosh, A. Ghosh, U. Devarajan, M. Kannan, L. Govindaraj, K. Mandal, “Effect of hydrostatic pressure on the magnetic, exchange bias and magnetocaloric properties of Ni45.5Co2Mn37.5Sn15”, Journal of Alloys and Compounds, 712, (2017), 714-719.
152. K. Karmakar, A. sarkar, K. Mandal and G. G. Khan, “Nano-engineering of p-n CuFeO2-ZnO heterojunction photoanode with improved light absorption and charge collection for photoelectrochemical water oxidation”, Nanotechnology, 28 (2017), 325401(10pp).
153. S. Talukdar, D. Mandal, K. Mandal, “Surface modification of Cobalt ferrite nano-hollowspheres for inherent multiple photoluminescence and enhanced photocatalytic activities”, Chemical Physics Letters 672 (2017), 57–62.
154. I. Chakraborty, R. Rakshit, K. Mandal, “Synthesis and functionalization of MnFe2O4 nano−hollow spheres for novel optical and catalytic properties” Surfaces and Interfaces, 7 (2017), 106-112.
155. I. Chakraborty, U. Saha, R. Rakshit, S. Talukdar, G. S. Kumar, K. Mandal, “Design and development of bioactive α-hydroxy carboxylate group modified MnFe2O4 nanoparticle: Comparative fluorescence study, magnetism and DNA nuclease activity”, Materials Today Chemistry 5 (2017) 92-100.
156. I Chakraborty, D Majumder, S Talukdar, S Roy, K Mandal, “Surface engineered magneto fluorescent MnFe2O4 nanoparticles in the realm of biomedical applications”, Surfaces and Interfaces 9, (2017),  154-159.


Year – 2018

157. M. Alam, S. Talukdar, K. Mandal, “Multiferroic properties of bilayered BiFeO3/CoFe2O4 Nano-hollowspheres” Materials Letters, 210, (2018) 80–83.
158. M. Alam, I. Chakraborty, K. Mandal, “Microwave synthesis of surface functionalized ErFeO3 nanoparticles for photoluminescence and excellent photocatalytic activity”, Journal of Luminiscence, 196, (2018), 387-391.
159. S. Talukdar, R. Rakshit, A. Kramer, F.A. Muller, K. Mandal, “Facile surface modification of nickel ferrite nanoparticles for inherent multiple fluorescence & catalytic activities”,RSC Advances, 8 (2018) 38
160. K. Karmakar, A. Sarkar, K. Mandal and G. G. Khan, “Investigating the Role of Oxygen Vacancies and Lattice Strain Defects on the Enhanced Photoelectrochemical Property of Alkali Metal (Li, Na, and K) Doped ZnO Nanorod Photoanodes”, ChemElectroChem, 5, (2018), 1–7.
161. R Rakshit, S. K Kadakuntla, P Agarwal, S Sardar, P Saha, K Mandal, “Surface Electronic States Induced High Terahertz Conductivity of Co3O4 Microhollow Structure”, ACS Applied Materials & Interfaces 10, (2018), 19189-19196.
162. D. Mandal, M. Mandal Goswami and K. Mandal, "Magnetic Properties  of  AOT  Functionalized Cobalt-Ferrite Nanoparticles in Search  of  Hard-Soft Marginal Magnet", IEEE Transaction on Magnetics, 54, (2018), 600406.
163. S Ghosh, A Ghosh, K Mandal, "Reversible magnetocaloric effect and critical exponent analysis in Mn-Fe-Ni-Sn Heusler alloys", Journal of Alloys and Compounds 746, (2018), 200.
164. S Ghosh, P Sen, K Mandal, " Effect of Si Doping on Magnetic and Magnetocaloric Properties of NiCo-Mn-Sn Alloys", IEEE Transactions on Magnetics 54, (2018), 1-5.


Year – 2019

165. P Saha, R Rakshit, M Alam, K Mandal, “Magnetic and Electronic Properties of -Doped Hollow Nanospheres” Physical Review Applied 11, (2019), 024059.
166. P Saha, R Rakshit, K Mandal, “Enhanced magnetic properties of Zn doped Fe3O4 nano hollow spheres for better bio-medical applications” Journal of Magnetism and Magnetic Materials 475, (2019),130-136.
167. D Majumder, I Chakraborty, K Mandal, S Roy, “Facet-Dependent Photodegradation of Methylene Blue Using Pristine CeO2 Nanostructures”, ACS omega 4, (2019), 4243-4251
168. I Chakraborty, U Saha, D Mandal, S Mukherjee, N Joardar, SPS Babu,  G. S. Kumar, K. Mandal. “Effect of bovine serum albumin on tartrate-modified manganese ferrite nano hollow spheres: spectroscopic and toxicity study”, Physical Chemistry Chemical Physics 21, (2019), 10726-10737.
169. P. Saha, S. Mukherjee, K. Mandal, ”Rheological response of magnetic fluid containing Fe3O4 nano structures”, Journal of magnetism and magnetic material 484, 324-328 (2019).
170. D Maity, K Karmakar, K Mandal, "NN type core-shell heterojunction engineering with MoO3 over ZnO nanorod cores for enhanced solar energy harvesting application in a photoelectrochemical cell", Journal of Alloys and Compounds 791, 739-746 (2019).
171. D Mandal, A Gorai, K Mandal, "Electromagnetic wave trapping in NiFe2O4 nano-hollow spheres: An efficient microwave absorber", Journal of Magnetism and Magnetic Materials 485, 43-48, (2019).
172. D Mandal, M Alam, K Mandal, "NiFe2O4 nano-hollow spheres with improved magnetic and dielectric properties", Physica B: Condensed Matter 554, 51-56 (2019).
173. S. Ghose, K. Mandal, "Leakage through the conductive channels appearing at the grain boundaries of multiferroic gallium ferrite", Journal of Physics D: Applied Physics 52, 415001 (2019).
174. A Chaudhuri, K Mandal, "Dynamic magnetic properties of monodisperse CoFe2O4 nanoparticles synthesized by a facile solvothermal technique", Physica B: Condensed Matter 575, 311640 (2019).


Year – 2020

175. S. Ghosh, P Sen, K Mandal, “Magnetostructural transition and large magnetocaloric effect in (Mn0.6 Fe0.4) NiSi(1− x) Alx (x= 0.06–0.08) alloys”, Journal of Magnetism and Magnetic Materials 500, 166345, (2020).
176. S Ghosh, A Ghosh, P Sen, K Mandal, “Giant Room-Temperature Magnetocaloric Effect Across the Magnetostructural Transition in (MnNiSi)(1-x)(FeCoGa)x alloys”, Physical Review Applied 14 (1), 014016, (2020).
177. S Talukdar, P Saha, I Chakraborty, K Mandal, “Surface Functionalized CoFe2O4 nano-hollowspheres: Novel Properties, Journal of Magnetism and Magnetic Materials, 513, (2020), 167079.
178. D Maity, K Karmakar, D Mandal, D Pal, GG Khan, K Mandal, “Earth abundant transition metal ferrite nanoparticles anchored ZnO nanorods as efficient and photoanodes for solar water splitting”, Nanotechnology 31 (2020), 475403.
179. D. Majumder, I. Chakraborty, K. Mandal, “Room temperature blooming of CeO2  3D nanoflowers under sonication and catalytic efficacy towards CO conversion”, RSC Advances., 10, (2020), 22204.
180. M Alam, K Mandal, GG Khan,  Origin and tuning of room temperature ferromagnetism and ferroelectricity in double perovskite Y2NiMnO6 nanostructured thin films, Journal of Alloys and Compounds 822, (2020), 153540.
181. M Alam, K Mandal, “Room temperature ferromagnetism and ferroelectricity in double perovskite Y2NiMnO6 thin film”, Journal of Magnetism and Magnetic Materials 512, (2020), 167062.
182. K Karmakar, D Maity, D Pal, K Mandal, GG Khan, “Photo-Induced Exciton Dynamics and Broadband Light Harvestingin ZnO Nanorod-Templated Multilayered Two-Dimensional MoS2/MoO3 Photoanodes for Solar Fuel Generation”, ACS Applied Nano Materials 3, (2020), 1223-1231.


Year – 2021

183. D. Mandal, K Mandal, “Tuning of structural, magnetic and dielectric properties of TFe2O4 (T = Mn, Fe, Co, Ni, Cu, and Zn) Nano-Hollow Spheres: Effect of cation substitution”, Journal of Alloys and Compounds, 851, (2021), 156898.
184. P. Saha, R. Rakshit and K. Mandal, “Shear response of magnetorheological fluid with Zn0.2Fe2.8O4 sub-micron hollow spheres”, Journal of Applied Physics 129 (2021), 033901.
185. M. Alam, K Mandal, “Origin of ferroelectricity in multiferroic ErFeO3”, Physica B: Condensed Matter, 612 (2021), 412935.

186. D. Mandal, K. Mandal, “Enhancement of electromagnetic wave absorption in MnFe2O4 nano-hollow spheres”, Journal of Applied Physics 129 (7), (2021), 074902.
187. A. Chaudhuri, R Rakshit, K Serita, M Tonouchi, K Mandal, “Electromagnetic response of SiO2@ Fe3O4 core shell nanostructures in the THz regime”, IEEE Transactions on Magnetics, 57, (2021), 1-6.
188. A. Gorai, D Mandal, K Mandal, “Multi-layered nano-hollow spheres for efficient electromagnetic wave absorption”, Nanotechnology 32, (2021), 345707.
189. D. Mandal, K Mandal, “Electromagnetic wave attenuation properties of MFe­O4 (M= Mn, Fe, Co, Ni, Cu, Zn) nano-hollow spheres in search of an efficient microwave absorber”, Journal of Magnetism and Magnetic Materials, 536, (2021), 168127.
190. I. Chakraborty, D. Majumder, R. Rakshit, M. Alam, S. Mukherjee, A. Gorai, and K. Mandal, “Magnetic Field Dependent photoluminescence of Tartrate Functionalized Gadolinium Dope danganese Ferrite Nanoparticles: A Potential Therapeutic Agent for Hyperbilirubinemia Treatment”, ACS Applied Nano Materials 4,  (2021), 4379-4387.
191. R Maity, A Dutta, S Halder, S Shannigrahi, K Mandal, TP Sinha, “Enhanced photocatalytic activity, transport properties and electronic structure of Mn doped GdFeO3 synthesized using the sol–gel process”, Physical Chemistry Chemical Physics 23 (2021), 16060-16076.
192. S Samanta, S Ghosh, K Mandal, “Observation of giant exchange bias effect in Ni–Mn–Ti all-d-metal Heusler alloy”, Journal of Physics: Condensed Matter 34 (2021), 105801.
193. S Ghosh, S Samanta, J Sinha, K Mandal, Measurement protocols dependent giant magnetocaloric effect in MnNiSi-based system”, Applied Physics Letters, 119, (2021), 183901.
194. A Dutta, A Gorai, D Mandal, K Mandal, Dielectric and microwave absorption properties of Na0.5Bi0.5TiO3–SrTiO3 system, Ferroelectrics 583, (2021), 252-263.
195. D Maity, K Karmakar, D Pal, S Saha, GG Khan, K Mandal, “One-Dimensional p-ZnCo2O4/n-ZnO Nanoheterojunction Photoanode Enabling Photoelectrochemical Water Splitting”, ACS Applied Energy Materials 4, (2021), 11599-11608.


Year – 2022

196. P Saha, R Rakshit, A Gorai, D Mandal, K Mandal, “Unusual dielectric properties of hollow magnesium ferrite nanospheres: a potential lightweight microwave absorber”, Journal of Materials Science, 57, (2022), 4569-4582.
197. S Ghosh, S Samanta, J Sridhar Mohanty, J Sinha, K Mandal, “Giant room temperature magnetocaloric response in a (MnNiSi)1−x(FeNiGa)x system”, Journal of Applied Physics 132, (2022), 045001.             
198. S Samanta, S Ghosh, S Chatterjee, K Mandal, “Large magnetocaloric effect and magnetoresistance in Fe-Co doped Ni50-x(FeCo)xMn37Ti13 all-d-metal Heusler alloys”, Journal of Alloys and Compounds 910, (2022), 164929.          
199. D Maity, D Pal, K Karmakar, R Rakshit, GG Khan, K Mandal, “Dual co-catalysts activated hematite nanorods with low turn-on potential and enhanced charge collection for efficient solar water oxidation”, Nanotechnology 33, (2022),  265402.
200. S. Hait and K. Mandal, “Enhanced ferroelectric, dielectric and magnetodielectric properties of Ba and Y co-doped Bismuth Ferrite nanoparticles”, Physica B; Condensed Matter, 645, 414243 (2022).
201. S Samanta, S Chatterjee, S Ghosh, K Mandal, "Large reversible magnetocaloric effect and magnetoresistance by improving crystallographic compatibility condition in Ni(Co)-Mn-Ti all-metal Heusler alloys", Physical Review Materials 6 (9), 094411 (2022).
202. S Chatterjee, J Sau, S Ghosh, S Samanta, B Ghosh, M Kumar, K Mandal, "Anomalous Hall effect in topological Weyl and nodal-line semimetal Heusler compound Co2VAl", Journal of Physics: Condensed Matter, 35 (3), 035601, (2022).

Year – 2023

203. S Samanta, S Chatterjee, J Sinha, K Mandal, “Giant reversibility of magnetoresponsive properties in all-metal Ni-Co-Mn(Cu)-Ti Heusler alloys: Role of phase-fraction-assisted magnetostructural transition”, Physical Review Materials 7 (8), (2023), 084406.
204. A Gorai, S Hait, W Taute, M Höft, K Mandal, “Optimization of Magnetic Coating for Improved Electromagnetic Wave Absorption in Bi-layered Nano-hollow Spheres”, IEEE Transactions on Magnetics (In press)
205. J S Mohanty, S Samanta, K Mandal, “Effect of heat treatment on coupled magnetostructural transition and magnetocaloric effect of MnNiGe system”, Journal of Magnetism and Magnetic Materials 578, (2023), 170834.  
206. S Chatterjee, J Sau, S Samanta, B Ghosh, N Kumar, M Kumar, K Mandal, “Nodal-line and triple point fermion induced anomalous Hall effect in the topological Heusler compound”,  Physical Review B 107, (2023), 125138.
207. S Hait, K Mandal, “Enhancement of Curie temperature of gallium ferrite beyond room temperature by the formation of Ga0. 8Fe1. 2O3−Y3Fe5O12 composite”, AIP Advances 13, (2023), 025345 (1-7).        
208. S Hait, A Gorai, K Mandal, “Origin of different microwave absorption in multiferroic Bismuth and Gallium Ferrite”, Materials Letters 331, (2023),133520.     
209. D Maity, D Pal, S Saha, P Punetha, D Sarkar, D De, GG Khan, K Mandal, “CeOx as Surface Passivation and Hole Transfer Catalyst Layer Boosting Solar Water oxidation of ZnFe2O4 Nanorods Photoanode”, Advanced Materials Interfaces 10, (2023), 2201645.
210. P Saha, K Mandal, “Magnetic field stimulated dielectric, electronic and thermal properties of magnetite nano-hollow spheres based magnetorheological fluids, Journal of Magnetism and Magnetic Materials 565, (2023), 170237.               
211. S Hait, I Jana, K Mandal, “Simultaneous improvement of leakage, electric, and magneto-dielectric properties due to the reduction in grain size”, Journal of Magnetism and Magnetic Materials 565, (2023), 170239.            

Year 1991-2013

1. A. Mitra, K. Mandal, M. Vazquez, S.K. Ghatak, “Influence of stress and stress-flash annealing on the magnetic properties of amorphous Fe77.5Si7.5B15 wire”-Journal of Applied Physics,70,1991, 4455-4459
2. K. Mandal and S.K. Ghatak, “Stress dependence of magnetic properties of a-Fe-Ni-B alloy” – Solid State Communication, 84, (1992), p.747 - 751.
3. A. Mitra, K. Mandal and S.K. Ghatak, “D.C. magnetic properties of as-quenched and flash-annealed amorphous Fe-Si-B wires” – Journal of Magnetism and Magnetic Materials, 110, (1992), p.135 - 139.
4. K. Mandal and S.K. Ghatak, “Magnetic behaviour of soft ferromagnetic materials” - Journal of Magnetism and Magnetic Materials, 118, (1993), 315 - 321. 
5. K. Mandal and S.K. Ghatak, “Large magnetoresistance in amorphous Co68.1Fe4.4Si12.5B15 ferromagnetic wire” -  Physical Review B, 47, (1993), p. 14233 – 14236.
6. K. Mandal, “Magnetic properties of amorphous ribbons at very low field” –  Physics Letters A, 174, (1993), p. 151 – 154.
7. K. Mandal, “Improvement of magnetic properties of amorphous ribbons by flash annealing” – Japanese Journal of Applied Physics, 32, (1993), p.3455 – 3456.
8. K. Mandal and S.K. Ghatak, “Magnetic properties of binary disordered alloy” – International Journal of Modern Physics B, 9, (1995), p. 145 – 161.
9. U. De, K. Mandal, V.S. Pandit, “Alpha-irradiation damage to specific heat in Thallium 2212 and 2223 oxide superconductors” - Indian Journal of Physics A, 69, (1995), p. 37 - 42.
10. D. Sanyal, U. De, K. Mandal, D. Banerjee and R. Bhattacharya, “Positronium formation in (Bi/Bi-Pb)-2212 and 2223 superconductors” –  Physics Letters A, 204, (1995), p. 305 - 309.
11. K. Mandal, “The role of stress in amorphous magnetic materials” – Japanese Journal of Applied Physics, 35, (1996), p. 93 – 96.
12. S.K. Bandyopadhyay, P. Sen, P. Barat, K. Mandal, U. De, S.K. Kar and C.K. Majumdar, “Alpha-irradiation study of Bi-2212 oxide superconductors” – Physica C, 267, (1996) p.303 – 307.
13. K. Mandal, D. Dufour, R. Sabet-Sharghi, B. Sijgers, D. Micke, T.W. Krause, L. Clapham and D.L. Atherton, “Detection of stress concentrations around a defect by magnetic Barkhausen noise measurements” –  Journal of Applied Physics, 80, (1996),  p.6391 – 6395.
14. K. Mandal and S.K. Ghatak, “Field dependence of magnetization of soft ferromagnetic materials” –Journal of Magnetism and Magnetic Materials, 167, (1997), p. 264 – 269.
15. K. Mandal, D. Dufour, T.W. Krause and D.L. Atherton, “Investigations of magnetic flux leakage and magnetic Barkhausen noise signals from pipeline steel” – Journal of Physics D: Applied Physics, 30, (1997), p. 962 – 973.
16. D.L. Atherton, T.W. Krause and K. Mandal, “Effects of stress on magnetic flux leakage and magnetic Barkhausen noise signals” – Review of Progress in Quantitative Nondestructive Evaluation, 16, (1997), p.1732-1740.
17. T.W. Krause, K. Mandal, C. Hauge, P. Weyman, B. Sijgers and D.L. Atherton, “Correlation between magnetic flux leakage and magnetic Barkhausen noise : Stress dependence in pipeline steel” – Journal of Magnetism and Magnetic Materials, 169, (1997), p. 207 – 214.
18. K. Mandal, A. Corey, M.E. Loukas, P. Weyman, J. Eichenberger and D.L. Atherton, “The effect of defect depth and bending stress on magnetic Barkhausen noise and magnetic flux leakage signals” -  Journal of Physics D : Applied Physics, 30, (1997), 1976 – 1983.
 19. K. Mandal, M.E. Loukas, A. Corey and D.L. Atherton, “Magnetic Barkhausen noise indication of stress concentration near pits of various depth” - Journal of Magnetism and Magnetic Materials, 175, (1997), p. 255 – 262.
20. L. Clapham, K. Mandal, T.W. Krause,  D.L. Atherton, “factors affecting stress concentrations near pit defects, as monitored by magnetic flux leakage, magnetic Barkhausen noise and neutron diffraction” – Review of Progress in Quantitative Nondestructive Evaluation,  16, (1997), p. 1723-1731.
21. K. Mandal and D.L. Atherton, “A study of Magnetic flux leakage signals” – Journal of Physics D: Applied Physics, 31, (1998), p. 3211 – 3217.
22. K. Mandal, D. Dufour and D.L. Atherton, “Use of magnetic Barkhausen noise and magnetic flux leakage signals for analysis of defects in pipeline steel” – IEEE Transaction on Magnetics, 35,  (1999), p. 2007 – 2017.
23. T. W. Krause, K. Mandal and D.L. Atherton, “Modelling of Barkhausen noise in single and dual axis systems in steel” - Journal of Magnetism and Magnetic Materials , 195, (1999), p. 193 – 205.
 24. K. Mandal, Th. Cramer and D. L. Atherton, “The study of a racetrack-shaped defect in ferromagnetic steel by magnetic Barkhausen noise and flux leakage measurements” – Journal of Magnetism and Magnetic Materials, 212, (2000), p. 231 – 239.
25. K. Mandal, S, Puerta, M. Vazquez and A. Hernando, “A study of giant magnetoimpedance in amorphous Co83.2Mn7.6Si5.8B3.3 microwire” – Physical Review B, 62, (2000), p. 6598 – 6602.
26. K. Mandal, M. Vázquez, D. García, F.J. Castaño, C. Prados and A. Hernando, “Developement of a tensile stress induced anisotropy in amorphous magnetic thin films” Journal of Magnetism and Magnetic Materials, 220, (2000), p. 152 – 160.
27. K. Mandal, M. Vazquez, M. Tena, F.J. Castano, D. Garcia, C. Prados and A. Hernando, “Induced magnetoelastic anisotropy in FeB/CoSiB and FeB/Cu/CoSiB thin films” – IEEE Transaction on Magnetics, 36, (2000), p.2912-2914.
28. U.De, K.Mandal, D.Sanyal, C.K.Majumdar “Critical & Gaussian Conductivity Fluctuations in Alpha-Irradiated Bi2Sr2CaCu2O8+d & (Bi,Pb)2Sr2CaCu2O8+d  Superconductors”-Physica C, 339, (2000), 113-119
29. K. Mandal, S. Puerta. M. Vazquez, A. Hernando,“The frequency and stress dependence of giant  magnetoimpedance in amorphous microwires”–IEEE Transaction on Magnetics, 36, (2000), 3257-3259
30. M. Vazquez, D. Garcia, C. Prados, A. Asenjo, F.J. Castano, K. Mandal, J.M. Garcia. M. Tena and A. Hernando, “Magnetic anisotropies in single and multilayered thin films grown by bowed-substrate sputtering” – IEEE Transaction on magnetics, 36, (2000),  p.3968-3974.
31. K. Mandal, S. Pan Mandal, S. Puerta, M. Vazquez, A. Hernando, “Giant magnetoimpedance effect in amorphous Co-Mn-Si-B microwire” – Journal of Alloys and compounds, 326, (2001), p.201-204.
32. K. Mandal, S. Pan Mandal, P. Agudo and M. Pal, “A study of nanocrystalline (Mn-Zn) ferrite in SiO2 matrix” – Applied Surface Science, 182, (2001), p.386-389.
33. K. Mandal, D. Sanyal, U. De and C.K. Majumdar, “Study of conductivity fluctuations in a-particle irradiated high-temperature superconductors”, Indian Journal of Cryogenics, 25, (2002), p. 73-77.
34. K. Mandal, S. Pan Mandal, M. Vázquez, S. Puerta and A. Hernando, “Giant magnetoimpedance effect in a positive magnetostrictive glass-coated amorphous microwire” – Physical Review B, 65, (2002), p.064402 (1-6).
35. K. Mandal, S. Pan Mandal, S. Puerta, M. Vazquez and A. Hernando, “ Giant magnetoimpedance effect in glass coated amorphous Co83.2Mn7.6Si5.8B3.3 microwire” – Indian Journal of Physics A 76, (2002), p.31-34.
36. K. Mandal, S. Chakraverty, S. Pan Mandal, P. Agudo, M. Pal and D. Chakravorty, “Size-dependent magnetic properties of Mn0.5Zn0.5Fe2O4 nanoparticles in SiO2 matrix” – Journal of Applied Physics, 92, (2002) p.501-505.
37. K. Mandal, T.W. Krause and D.L. Atherton, “Characterization of magnetic materials by magnetic Barkhausen noise measurements” – Indian Journal of Physics A, 77 (2003) p.93-97.
38. K. Mandal, S. Pan Mandal, M. Vazquez, “Annealing effect on the giant magnetoimpedance of amorphous microwire”, Indian Journal of Physics, 77A, (2003) p. 599-602.
39, S. Chakraverty, K. Mandal, S. Chatterjee, S. Kumar, “The magnetic properties of NiFe2O4-SiO2 nanocomposite”, Indian Journal of Physics 78A, (2004), p. 177-183.
40. K. Mandal, A. Yan, P. Kerschl, O. Gutfleisch, A. Handstein, K.-H. Müller, “The study of magnetocaloric effect in R2Fe17 (R=Y, Pr) alloys”, Journal of Physics D: Applied Physics, 37 (2004), p. 2628-2631.
41. S. Chakraverty, K. Mandal, S. Mitra, S. Chattapadhyay and S. Kumar, “Magnetic properties of NiFe2O4 in SiO2 matrix” Japanese Journal of Applied Physics, 43, (2004), p. 7782-7787.
42. S. Chakraverty, S. Mitra, K. Mandal, P.M.G. Nambissan and S. Chatterjee, “Positron annihiliation studies of some anomalous features of NiFe2O4 nanocrystals grown in SiO2” Physical Review B 71, (2005) p. 024115 –(1-8)
 43. S. Sinha and K. Mandal, “Effect of tensile stress on the magnetic Barkhausen noise in amorphous Fe70Ni8Si10B12 ribbon”, Indian Journal of Physics, 79, (2005), p. 991-993.
44. K. Mandal, O. Gutfleisch, A. Yan, A. Handstein, K. –H. Müller, “Effect of reactive milling in hydrogen on the magnetic and magnetocaloric properties of LaFe11.57Si1.43”, Journal of Magnetism and Magnetic Materials, 290-291, (2005), p. 673-675.
45. K. Mandal and S. Sinha, “Contributions to giantmagnetoimpedance from various domain regions in (Co0.94Fe0.06)72.5Si12.5B15 wire”, Journal of Applied Physics, 99, (2006), p. 033901-(1-5).
46. K. Mandal, Subarna Mitra and P. Anil Kumar, “Deviation from Bloch T3/2 law in ferrite nanoparticles”, Europhysics Letters, 75, (2006), p. 618-623.
47. S. Sinha, K. Mandal, M. Vazquez,“Giant magnetoimpedance in amorphous (Co0.93Fe0.07)63Ni10 Si11B16 glass-coated microwire” Journal of Magnetism and Magnetic Materials, 302, (2006) p. 223-227.
48. Subarna Mitra, K. Mandal and P. Anil Kumar, “Temperature dependence of magnetic properties of NiFe2O4 nanoparticles embeded in SiO2 matrix” Journal of Magnetism and Magnetic Materials, 306, (2006) 254-259.
49. Subarna Mitra, K. Mandal, S. Sinha, P.M.G. Nambissan,  S. Kumar, “Size and temperature dependent cationic redistribution in NiFe2O4(SiO2) nanocomposites: positron annihilation and Mössbauer studies glass-coated microwire” Journal of Physics D: Applied Physics, 39, (2006) 4228 - 4235.
50. S. Sinha, K. Mandal, “Study of magnetic Barkhausen noise from amorphous Fe70Ni8Si10B12 and Fe40Ni40B20 ribbons” Journal of Non-Destructive Testing & Evaluation, 5, (2006) 49-53.
51. K. Mandal, A. Yan, A. Handstein, O. Gutfleisch, K.-H. Mueller, “Magnetocaloric effect in iron rich alloys” , Indian Journal of Cryogenics, 29, (2004) 73-75.
52. P. Anil Kumar, Subarna Mitra, K. Mandal, “ Structural and magnetic properties of Co nanoparticles in Cu/SiO2 matrix ” Indian Journal Pure and Applied Physics, 45, (2007) 21-26
53. K. Mandal, Subarna Mitra and P. Anil Kumar, “Reply to the Comment by S. Morup on 'Deviation from Bloch T3/2 law in ferrite nanoparticles”, Europhysics Letters, 77, (2007) 27004 p1-p2.
54. S. Sinha, K. Mandal and B. Das, “Magnetization dynamics in wire-shaped amorphous magnetic materials as probed by Barkhausen noise measurement”, Journal of Physics D: Applied Physics, 40, (2007) 2710-2715.
55. S. Mitra and K. Mandal, “Superparamagnetic Behavior in Noninteracting NiFe2O4 nanoparticles in SiO2 matrix” , Materials and Manufacturing Processes, 22, (2007), 444-449.
56. P. Anil Kumar and K. Mandal, “Exchange bias in Co-Cr2O3 nanocomposites” , Journal of Applied Physics, 101, (2007), 113906 (1-5).

57. S. Mitra, S. Das, K. Mandal and S. Chaudhuri, “Synthesis of spindles, rhombohedra and cube like structures of α Fe2O3 nanocrystals and study of shape dependent optical and magnetic properties”, Nanotechnology 18, (2007), 275608 (9pp).
58. K. Mandal, D.Pal, O.Gutfleisch, P.Kerschl, K.-H. Mueller,“Magnetocaloric effect in reactively-milled LaFe11.57Si1.43Hy intermetallic compounds”, Journal of Applied Physics, 102, (2007) 053906 (1-5)
59. K. Mandal, D. Pal, N. Scheerbaum, J. Lyubina, O. Gutfleisch, “Magnetocaloric effect in Ni-Mn-Ga alloys” , IEEE Transaction on Magnetics, 44, (2008), 2993 – 2996.
60. B. Das, K. Mandal, P. Sen and S. K. Bandyopadhyay, “The effect of aspect ratio on the magnetic properties of Ni-nanowire arrays” Journal of Applied Physics, 103, (2008), 013908 (1-4).
61. S. Mitra, K. Mandal, E. S. Choi, “Dynamic magnetic properties of NiFe2O4 nanoparticles embedded in SiO2 matrix” , IEEE Transaction on Magnetics, 44 (2008), 2974-2977.
62. S. Sinha, B. Das and K. Mandal, “Magnetoimpedance of a glass coated amorphous microwire”, Journal of Applied Physics, 105 (2009), 07A311.
63.  K.Mandal, D.Pal, N.Scheerbaum, J.Lyubina, O.Gutfleisch “Effect of pressure on the magnetocaloric properties of nickel-rich Ni-Mn-Ga Heusler Alloys”, Journal of Applied Physics,105, (2009), 073509.
64. S. Mitra, S. Das, S. Basu, P. Sahu, K. Mandal, ”Shape- and field-dependent Morin transitions in structured α-Fe2O3”, Journal of Magnetism and Magnetic Materials, 321 ( 2009), Pgs 2925-2931.
65.  M.Mandal, B.Das K.Mandal, “Synthesis of CoxPt1-x alloy nanoparticles of different phase by micellar technique and their properties study”, Journal of Colloid & Interface Science, 335, (2009), 40-43.
66. M. Mandal and K. Mandal,  “Synthesis of Snowball Flower-like Ni Nanoparticles by Negatively      Charged Micelles”, Chemistry Letters, 38, (2009), 768-769.
67.  M. Mandal and K. Mandal, “Synthesis of DNA templated trifunctional electrically conducting, optical and magnetic nanochain of Nicore-Aushell for biodevice”, Journal of Applied Physics, 106, (2009), 026101.
68.  M. Mandal, D. Pal and K. Mandal,“ Negatively charged micelles directed synthesis of snow-ball flower like superparamagnetic Ni nanoparticles and investigation of their properties ”, Colloids and Surfaces A: Physicochemical and Engineering aspects, 348, (2009), 35 - 38.
69.  A. Chaudhuri, M. Mandal and K. Mandal,“ Preparation and study of NiFe2O4/SiO2 core-shell nanocomposites ”, Journal of Alloys and Compounds, 487, (2009), 698 - 702.
70.  A. Chaudhuri, S. Mitra, M. Mandal and K. Mandal,“ Nanostructured Bismuth Ferrites Synthesized by Solvothermal Process”, Journal of Alloys and Compounds, 491, (2010), 703–706.
71. S. Ghosh,  K. Mandal, “Study of Zn1-xCoxO (0.02£x£0.08) dilute magnetic semiconductor prepared by mechanosynthesis route” Journal of Magnetism and Magnetic Materials, 322, (2010), 1979 – 1984.
72. D. Pal and K. Mandal, “Magnetic and Magneto-Transport Properties of Nickel-Rich Ni-Mn-Ga Heusler Alloys”, Japanese Journal of Applied Physics, 49, (2010) 073002 (1-5).
73. D. Pal, K. Mandal and O. Gutfleisch, “Large negative magnetoresistance in nickel-rich Ni-Mn-Ga        Heusler alloys”, Journal of Applied Physics, 107, (2010), 09B103.
74. S. Ghosh, D. De Munshi and K. Mandal, “Paramagnetism in single-phase Sn1-xCoxO2 dilute   magnetic semiconductors”, Journal of Applied Physics, 107, (2010), 123919.
75.  D. Pal and K. Mandal, “Magnetoresistance and magnetocaloric effect of Ni-Fe-Ga alloys”, J. Physics D: Applied Physics, 43 (2010), 455002.
76.D. Pal, M. Mandal, A. Chaudhuri, B. Das, D. Sarkar, K. Mandal, “Micelles induced high coercivity in single domain cobalt-ferrite nanoparticles”, Journal of Applied Physics, 108, (2010), 124317.
 77. S. Ghosh, M. Mandal and K. Mandal, “Effects of Fe doping and Fe-N-codoping on magnetic properties of SnO2 prepared by chemical co-precipitation”, Journal of Magnetism and Magnetic Materials, 323 (2011) 1083 – 1087.
78. D. Sarkar, K. Mandal and M. Mandal, ”Synthesis of chainlike α-Fe2O3 nanoparticles in DNA template and their characterization”,  Nanoscience and Nanotechnolgy Letters, 3, (2011), 170 – 174.
79. D. Sarkar, M. Mandal, R. Das, K. Mandal, “Fabrication of biologically functionalized, electrically conducting & aligned magnetic nanoparticles”, IEEE Transaction on Magnetics, 47(2011),3163-3166
80. S. Chakraborty, K. Mandal, D. Sarkar, V. J. Cremaschi, J. M. Silveyra, “Dynamic coercivity of Mo-doped FINEMETs”,  Physica B , 406, (2011), 1915 – 1918.
81. S. Ghosh, G. G. Khan, B. Das, K. Mandal, “Vacancy-induced intrinsic d0 ferromagnetism and       photoluminescence in potassium doped ZnO nanowires”, Journal of Applied Physics, 109, (2011)      123927.
82. R. Das and K. Mandal, “Effect of barium substitution on ferroelectric and magnetic properties of       bismuth ferrite” IEEE Transaction on Magnetics, 47, (2011), 4054 - 4057.
83. G. G. Khan, R. Das, N. Mukherjee and K. Mandal, “ Effect of metal doping on highly efficient photovoltaics and switchable photovoltage in bismuth ferrite nanotubes” Physica Status Solidi (RRL) - Rapid Research Letters, 6, (2012),  312–314.
84. G. G. Khan, S. Ghosh and K. Mandal, “Origin of room temperature d0 ferromagnetism and characteristic photoluminescence in Pristine SnO2 nanowires: A correlation”, Journal of Solid State Chemistry (Rapid Communication), 186, (2012), 278-282.
85. A. Chaudhuri and K. Mandal, “Enhancement of ferromagnetic and dielectric properties of Lanthanum doped Bismuth Ferrite nanostructures”, Materials Research Bulletin, 47 (2012) 1057–1061.
86. R. Das and K. Mandal, “Magnetic, ferroelectric and magnetoelectric properties of Ba-doped BiFeO­3 ”, Journal of Magnetism and Magnetic Materials, 324 (2012) 1913–1918.
87. S. Ghosh, Gobinda Gopal Khan, and K. Mandal, “Defect-Driven Magnetism in Luminescent n/p- type Pristine and Gd-Substituted SnO2 Nanocrystalline Thin Films” ACS Applied Materials &      Interfaces, 4, (2012), 2048–2056.
88. R. Das, G. G. Khan, and K. Mandal, “Enhanced ferroelectric, magnetoelectric, and magnetic properties in Pr and Cr co-doped BiFeO3 nanotubes fabricated by template assisted route”, Journal of Applied Physics, 111, (2012) 104115.
89. M. S. Sultan, B. Das, K. Mandal and D. Atkinson, “Magnetic field alignment of template released ferromagnetic nanowires” Journal of Applied Physics, 112, (2012), 013910 (1-9).
90. G. G. Khan, R. Das, N. Mukherjee and K. Mandal, “Supporting information for effect of metal doping on highly efficient photovoltaics and switchable photovoltage in bismuth ferrite nanotubes” Physica Status Solidi (RRL) - Rapid Research Letters, Supporting information for 6, (2012),  312–314].
91. Bipul Das,  K. Mandal,  Pintu Sen, Ashish Bakshi, Pradip Das, “Directional change of magnetic easy axis of arrays of cobalt nanowires: Role of non-dipolar magnetostatic interaction” Physica B: Condensed Matter, 407, (2012), 3767 – 3773.
92. S. Ghosh, G. G. Khan and K. Mandal, “Influence of Li-N and Li-F co-doping on defect-induced intrinsic ferromagnetic and photoluminescence properties of arrays of ZnO nanowires" Journal of Applied Physics, 112, (2012) 043910.
93. D. Sarkar, M. Mandal and K. Mandal, “Domain controlled magnetic and electric properties of variable sized magnetite nano-hollow spheres”, Journal of Applied. Physics 112 (2012), 064318.
94.  Rajasree Das, Tanusree Sarkar and K. Mandal, “Multiferroic properties of Ba2+ and Gd3+ co-doped bismuth ferrite: magnetic, ferroelectric and impedance spectroscopic analysis”, J. Phys. D: Appl. Phys. 45 (2012), 455002.
95. M. S. Sultan, B. Das, P. Sen, K. Mandal, and D. Atkinson, “Template Released Ferromagnetic Nanowires: Morphology and Magnetic Properties” Journal of Spintronics and Magnetic Nanomaterials 1, 113-121 (2012).
96. D. Sarkar, G. G. Khan, A. K. Singh and K. Mandal, “Enhanced Electrical, Optical, and Magnetic Properties in Multifunctional ZnO/alpha-Fe2O3 Semiconductor Nanoheterostructures by Heterojunction Engineering”, Journal of Physical Chemistry C, 116 (2012), 23540-23546.
97. G. G. Khan, A. K. Singh and K. Mandal, “Structure dependent photoluminescence of nanoporous amorphous anodic aluminium oxide membranes: role of F+ center defects”, Journal of Luminescence, 134 (2013) 772-777.
98. G. G. Khan, D. Sarkar, A. K. Singh and K. Mandal, “ Enhanced band gap emission and ferromagnetism of Au nanoparticle decorated alpha-Fe2O3 nanowires due to surface plasmon and interfacial effects” RSC Advances, 3, (2013), p. 1722-1727.
99. S. Ghosh, G. G. Khan, S.  Varma and K. Mandal, “Influence of Film Thickness and Oxygen Partial Pressure on Cation-Defect-Induced Intrinsic Ferromagnetic Behavior in Luminescent p-Type Na-Doped ZnO Thin Films” ACS Applied Materials & Interfaces, 5 (2013), p. 2455-2461.
100. S. Ghosh, G. G. Khan, K.  Mandal, A. Samanta, and P. M. G. Nambissan, “Evolution of Vacancy-Type Defects, Phase Transition, and Intrinsic Ferromagnetism during Annealing of Nanocrystalline TiO2 Studied by Positron Annihilation Spectroscopy”, Journal of Physical Chemistry C, 117, (2013),   p. 8458-8467.
101. A. K. Singh, D. Sarkar, G. G. Khan,  K. Mandal, “ Unique hydrogenated Ni/NiO core/shell 1D nanoheterostructures with superior electrochemical performance as supercapacitors”, Journal of Materials Chemistry A, 1 (2013) 12759 – 12767.
102. S. Ghosh, G. G. Khan, A. Ghosh, S. Verma and K. Mandal, “Zinc vacancy-induced high-Tc ferromagnetism and photoluminescence in group-1 alkali-metal substituted p-type ZnO thin films” Crystal Engineering Communications, 15, (2013), 7748-7755.
103. D. Sarkar, G. G. Khan, A. K. Singh and K. Mandal, “High-Performance Pseudocapacitor Electrodes Based on alpha-Fe2O3/MnO2 Core-Shell Nanowire Heterostructure Arrays”, Journal of Physical Chemistry C, 117, (2013), 15523 – 15531.
104. A. Ghosh and K. Mandal, “ Large inverse magnetocaloric effect in Ni48.5-xCoxMn37Sn14.5 (x=0, 1 and 2) with negligible hysteresis”, Journal of Alloys and Compounds, 579, (2013), 295-299.
105. A. Ghosh and K. Mandal: Large magnetic entropy change and magnetoresistance associated with a martensitic transition of Mn-rich Mn50.5-xNi41Sn8.5+x alloys” Journal of Physics D: Applied Physics, 46,  (2013) 435001.
106. A. Ghosh and K. Mandal, “Large magnetoresistance associated with large inverse magnetocaloric effect in Ni-Co-Mn-Sn alloys” European Physical Journal B, 86, (2013) 378.
107. R. DasG. G. KhanS. VarmaG. Dev Mukherjee, and K. Mandal, “Effect of Quantum Confinement on Optical and Magnetic Properties of Pr–Cr-Codoped Bismuth Ferrite Nanowires, Journal of Physical Chemistry C, 117, (2013), pp 20209–20216.
108. D. Sarkar, M. Mandal, and K. Mandal, “Design and Synthesis of High Performance Multifunctional Ultrathin Hematite Nanoribbons”, ACS Applied Materials and Interfaces, 5, (2013) pp. 11995–12004.


B. Book Chapters:
1. 1. K. Mandal, S. Ghose, M. Mandal, D. Majumder, S. Talukder, I. Chakraborty and S. K. Panda, “Notes on useful materials and synthesis through various chemical solution techniques”, in the book entitled, “Chemical Solution Synthesis for Materials Design and Thin Film Device Applications”, Editors: Soumen Das and Sandip Dhara,
Paperback ISBN: 9780128197189, eBook ISBN: 9780128231708