Dr. Sukhendu Sadhukhan

@buruniv.ac.in

Ph.D. in Physics from The University of Burdwan
The University of Burdwan

Myself Dr. Sukhendu Sadhukhan. During my research period, I have one patent published and more than ten articles published in reputed high-impact international journals. I developed few lab instruments for research purposes with my knowledge of hardware, electronics, and LabView software. I also have a deep understanding of programming languages like C, Java, JavaScript, etc., and I also developed many web apps and Android apps. I have qualified for the national eligibility test (NET) in Physical science twice and GATE in Physics. And have a teaching experience as a private tutor of more than ten years upto graduation students.

EDUCATION

Sukhendu Sadhukhan is currently persuing his Ph.D. in Physics from The University of Burdwan. He completed his M.Sc. on 2017 from the University of Burdwan.

RESEARCH, TEACHING, or OTHER INTERESTS

Condensed Matter Physics

FUTURE PROJECTS

Scopus Publications

129

Scholar Citations

Scholar h-index

Scholar i10-index

Scopus Publications

Unusual magnetization and field switching effects in multifunctional Ba, Ni-doped YCrO3 polycrystalline samples
Souvick Das, Ayan Mitra, Sukhendu Sadhukhan, Manas Mondal, Amit Kumar, and Pabitra Kumar Chakrabarti
American Physical Society (APS)

Exploring the room temperature multiferroic behavior and negative exchange bias effect in Ho<inf>0.05</inf>Y<inf>0.95</inf>Fe<inf>0.90</inf>Ti<inf>0.10</inf>O<inf>3</inf> nanoceramic
Souvick Das, Ayan Mitra, Sukhendu Sadhukhan, Amit Kumar, Amitabh Das, Ishita Jana, Kalyan Mandal, and Pabitra Kumar Chakrabarti
Elsevier BV

Microwave absorption and hyperthermia properties of titanium dioxide–nickel zinc copper ferrite nanocomposite
Ayan Mallick, Chandi Charan Dey, Sukhendu Sadhukhan, Sujay Das, Raghumani Singh Ningthoujam, Jean-Marc Greneche, and Pabitra Kumar Chakrabarti
Elsevier BV

Hopping conduction of localized polarons with scaling behaviour in ceramic composite (YCrO<inf>3</inf>)<inf>1 - x</inf> - (CoFe<inf>1.6</inf>Cr<inf>0.4</inf>O<inf>4</inf>)<inf>x</inf>
Souvick Das, Sukhendu Sadhukhan, Ayan Mitra, Chandi Charan Dey, and P.K. Chakrabarti
Elsevier BV

Room temperature multiferroicity of hexagonal LuFeO<inf>3</inf> and its enhancement by co-doping in Lu<inf>0.9</inf>Co<inf>0.1</inf>Fe<inf>0.9</inf>Ti<inf>0.1</inf>O<inf>3</inf> nanoparticle system
Sukhendu Sadhukhan, Ayan Mitra, Abhik S. Mahapatra, and Pabitra K. Chakrabarti
Elsevier BV

Enhanced multiferroicity of Ho<inf>0.95</inf>Co<inf>0.05</inf>Fe<inf>0.95</inf>Ti<inf>0.05</inf>O<inf>3</inf> by co-doping in HoFeO<inf>3</inf> nanoparticle system
Sukhendu Sadhukhan, Abhik S. Mahapatra, Ayan Mitra, and Pabitra K. Chakrabarti
Elsevier BV

Strong modulation effects on magnetoelectric behavior of Co-ferrite nanoparticles incorporated in ZnO medium in nano-regime synthesized in chemical routes
Sukhendu Sadhukhan, Abhik S. Mahapatra, Ayan Mitra, Nupur Bhakta, Souvick Das, Ayan Mallick, Anupam Banerjee, Souvik Chatterjee, J. M. Greneche, and Pabitra K. Chakrabarti
Springer Science and Business Media LLC

Investigation of magneto-electric properties of La<inf>0.85</inf>Nd<inf>0.15</inf>Fe<inf>0.9</inf>Ti<inf>0.1</inf>O<inf>3</inf>
Nupur Bhakta, Sukhendu Sadhukhan, Chandi Charan Dey, Ayan Mitra, and Pabitra K. Chakrabarti
Elsevier BV

Magnetoelectric multiferroicity in a newly derived nanocomposite system of (Y<inf>0.97</inf>Al<inf>0.03</inf>FeO<inf>3</inf>)<inf>x</inf>((Bi<inf>0.5</inf>Na<inf>0.5</inf>)<inf>0.94</inf>Ba<inf>0.06</inf>TiO<inf>3</inf>)<inf>(1−x)</inf> [x = 0.3, 0.5]
Sukhendu Sadhukhan, Ayan Mitra, Abhik S. Mahapatra, Chandi Charan Dey, Souvick Das, and Pabitra K. Chakrabarti
Elsevier BV

Multiferroic properties and magnetoelectric coupling observed in nanocrystalline HoFeO<inf>3</inf>
Sukhendu Sadhukhan, Abhik S. Mahapatra, Ayan Mitra, and Pabitra K. Chakrabarti
Elsevier BV

Spin reorientation behavior and enhanced multiferroic properties of co-doped YFeO<inf>3</inf> towards a monophasic multiferroic ceramic Co<inf>0.05</inf>Y<inf>0.95</inf>Fe<inf>0.95</inf>Ti<inf>0.05</inf>O<inf>3</inf>
Souvick Das, Ayan Mitra, Sukhendu Sadhukhan, Amitabh Das, Souvik Chatterjee, and Pabitra K. Chakrabarti
Elsevier BV

Magnetic Energy Morphing, Capacitive Concept for Ni<inf>0.3</inf>Zn<inf>0.4</inf>Ca<inf>0.3</inf>Fe<inf>2</inf>O<inf>4</inf>Nanoparticles Embedded in Graphene Oxide Matrix, and Studies of Wideband Tunable Microwave Absorption
Chandi Charan Dey, Sukhendu Sadhukhan, Ayan Mitra, Madhumita Dalal, Anirban Shaw, Anna Bajorek, and Pabitra K. Chakrabarti
American Chemical Society (ACS)
Nanoparticles of Ni0.3Zn0.4Ca0.3Fe2O4 (NZCF) were successfully prepared by the facile wet chemical method coupled with the sonochemical method. These nanoparticles were embedded in a graphene oxide (GO) matrix (NZCFG). Rietveld analyses of X-ray diffraction, transmission electron microscope, scanning electron microscope, and X-ray photoelectron spectroscopy were carried out to extract different relevant information regarding the structure, morphology, and ionic state. A major improvement in saturation magnetization is achieved due to substitution of Ca2+ in the ferrite lattice. Interestingly, the observed value of electromagnetic absorption for a sample thickness of 1.5 mm is ∼-67.7 dB at 13.3 GHz, and the corresponding bandwidth is 5.73 GHz. The Cole-Cole plot, the Jonscher power-law fitting, and the Nyquist plot confirm the probability of improved hopping conductance and attractive capacitive behavior in NZCFG. The presence of magnetic energy morphing in combination with a higher attenuation constant, lower skin depth, and various forms of resonance and relaxation makes NZCFG the most suitable for microwave absorption.

Electromagnetic shielding performance of Co<inf>0.5</inf>Zn<inf>0.4</inf>Cu<inf>0.1</inf>Fe<inf>2</inf>O<inf>4</inf>-GO/paraffin wax hybrid nanocomposite through magnetic energy morphing prepared by facile synthesis method
Chandi Charan Dey, Abhik Sinha Mahapatra, Sukhendu Sadhukhan, and Pabitra K. Chakrabarti
Elsevier BV

Rietveld analysis, enhanced magnetic, dielectric and ferroelectric properties of Gd<sup>3+</sup> and Ti<sup>4+</sup> co-doped LaFeO<inf>3</inf> multiferroic
N. Bhakta, A. Mitra, A. Mallick, S. Sadhukhan, A. Bajorek, and P.K. Chakrabarti
Elsevier BV

RECENT SCHOLAR PUBLICATIONS

Unusual magnetization and field switching effects in multifunctional Ba, Ni-doped polycrystalline samples
S Das, A Mitra, S Sadhukhan, M Mondal, A Kumar, PK Chakrabarti
Physical Review Materials 8 (11), 114406 2024

Exploring the Room Temperature Multiferroic Behavior and Negative Exchange Bias Effect in Ho0. 05Y0. 95Fe0. 90Ti0. 10O3 Nanoceramic
S Das, A Mitra, S Sadhukhan, A Kumar, A Das, I Jana, K Mandal, ...
Journal of Alloys and Compounds, 175163 2024

Review on Antibacterial Activity of Silver Nanoparticle: Recent Advances And Future Scope
Moupiya Ghosh Shivam Nandy, Sukhendu Sadhukhan
Futuristic Trends in Chemical Material Sciences & Nano Technology 3, 17 2024

Study on Structural and Dielectric Behavior of Li0.3Zn0.3Co0.1Fe2.3O4
Madhumita Dalal, Sukhendu Sadhukhan, Pabitra K. Chakrabarti
Nanoworld Journal 10 ((S1)), S246-S249 2024

Microwave Absorption and Magnetic Properties of Ni-Nio-Go Nanocomposites
MK Mondal, N Bhakta, M Dalal, S Sadhukhan, A Banerjee, CC Dey, ...
Available at SSRN 4947538 2024

Microwave absorption and hyperthermia properties of titanium dioxide–nickel zinc copper ferrite nanocomposite
A Mallick, CC Dey, S Sadhukhan, S Das, RS Ningthoujam, JM Greneche, ...
Journal of Magnetism and Magnetic Materials 587, 171373 2023

Enhanced multiferroicity of Ho0.95Co0.05Fe0.95Ti0.05O3 by co-doping in HoFeO3 nanoparticle system
S Sadhukhan, AS Mahapatra, A Mitra, PK Chakrabarti
Journal of Magnetism and Magnetic Materials 579, 170861 2023

Hopping conduction of localized polarons with scaling behaviour in ceramic composite (YCrO3)1 - x - (CoFe1.6Cr0.4O4)x
Souvick Das, Sukhendu Sadhukhan, Ayan Mitra, Chandi Charan Dey, P.K. Chakrabarti
Materials Science and Engineering: B 297, 116720 2023

Room temperature multiferroicity of hexagonal LuFeO3 and its enhancement by co-doping in Lu0. 9Co0. 1Fe0. 9Ti0. 1O3 nanoparticle system
S Sadhukhan, A Mitra, AS Mahapatra, PK Chakrabarti
Journal of Alloys and Compounds 956, 170351 2023

Strong modulation effects on magnetoelectric behavior of Co-ferrite nanoparticles incorporated in ZnO medium in nano-regime synthesized in chemical routes
S Sadhukhan, AS Mahapatra, A Mitra, N Bhakta, S Das, A Mallick, ...
Applied Physics A 129 (1), 68 2023

Investigation of magneto-electric properties of La0.85Nd0.15Fe0.9Ti0.1O3
N Bhakta, S Sadhukhan, CC Dey, A Mitra, PK Chakrabarti
Journal of Magnetism and Magnetic Materials 564 (2), 170208 2022

Magnetoelectric multiferroicity in a newly derived nanocomposite system of (Y0.97Al0.03FeO3)x((Bi0.5Na0.5)0.94Ba0.06TiO3)(1-x) [ x= 0.3, 0.5]
Sukhendu Sadhukhan, Ayan Mitra, Abhik S. Mahapatra, Chandi Charan Dey ...
Journal of Magnetism and Magnetic Materials 559, 169553 2022

Multiferroic properties and magnetoelectric coupling observed in nanocrystalline HoFeO₃
Sukhendu Sadhukhan, Abhik S. Mahapatra, Ayan Mitra, Pabitra K. Chakrabarti
Journal of Alloys and Compounds 907, 164443 2022

Spin reorientation behavior and enhanced multiferroic properties of co-doped YFeO3 towards a monophasic multiferroic ceramic Co0. 05Y0. 95Fe0. 95Ti0. 05O3
Souvick Das, Ayan Mitra, Sukhendu Sadhukhan, Amitabh Das, Souvik Chatterjee ...
Advanced Powder Technology 33 (6), 103622 2022

Magnetic Energy Morphing, Capacitive Concept for Ni0. 3Zn0. 4Ca0. 3Fe2O4 Nanoparticles Embedded in Graphene Oxide Matrix, and Studies of Wideband Tunable Microwave Absorption
Chandi Charan Dey, Sukhendu Sadhukhan, Ayan Mitra, Madhumita Dalal, Anirban ...
ACS Applied Materials & Interfaces 13 (39), 46967-46979 2021

Electromagnetic shielding performance of Co0. 5Zn0. 4Cu0. 1Fe2O4-GO/paraffin wax hybrid nanocomposite through magnetic energy morphing prepared by facile synthesis method
Chandi Charan Dey, Abhik Sinha Mahapatra, Sukhendu Sadhukhan, Pabitra K ...
Materials Today Communications 27, 102190 2021

Rietveld analysis, enhanced magnetic, dielectric and ferroelectric properties of Gd3+ and Ti4+ co-doped LaFeO3 multiferroic
Nupur Bhakta, Ayan Mitra, Ayan Mallick, Sukhendu Sadhukhan, Anna Bajorek ...
Materials Science and Engineering: B 264 (114810) 2021

Burdwan University Thalassemia Severity (BUTS) Scoring System: A numerical Method For Defining the Clinicopathological status of Thalassaemia Patient
Anupam Basu, Prosanto Chowdhury, Tamoghna Chowdhuy, Sukhendu Sadhukhan ...
medRxiv 2021

Enhanced magnetic, dielectric and ferroelectric properties of La0.9Er0.1FeO3
Ayan Mitra, Anirban Shaw, Sukhendu Sadhukhan, Souvick Das, Pabitra Kumar ...
Proceedings of the national conference on condensed matter physics 2018

To study the Magneto Electric behavior of some nanocrystalline nanocomposite and bulk Multiferroics prepared by Chemical and Solid state reaction routes
S Sadhukhan
Bardhaman

MOST CITED SCHOLAR PUBLICATIONS

Investigation of magneto-electric properties of La0.85Nd0.15Fe0.9Ti0.1O3
N Bhakta, S Sadhukhan, CC Dey, A Mitra, PK Chakrabarti
Journal of Magnetism and Magnetic Materials 564 (2), 170208 2022
Citations: 4

Dr. Sukhendu Sadhukhan

EDUCATION

RESEARCH, TEACHING, or OTHER INTERESTS

FUTURE PROJECTS

Multiferroics and Condenced Matter Physics

Scopus Publications

RECENT SCHOLAR PUBLICATIONS

MOST CITED SCHOLAR PUBLICATIONS