Manjusha M V, PhD.
Associate Professor (HOD)
Official Contact
HOD, Associate Professor, Department of Physics, The Cochin College, Kochi – 682002
manjushamv@thecochincollege.edu.in,
9495673678
M.Sc., Ph.D., Post.Doc
Material Science
Keenly interested in pursuing a teaching and research career in Physics, in particular in an institution which believes in excellence through teamwork and provides ample opportunities to explore the creative landscape of its members.
- Synthesis and Optical Characterisation of Fe doped Barium Titanate nanoparticles, Dhanya Raj, Manjusha M V, Materials Today: Proceedings, November 2023, S2214785323052379. https://doi.org/10.1016/j.matpr.2023.11.131.
- Measurement of Thermal Diffussion in coatings and films by Travelling Thermal Wave Techniques, Manjusha M V, Philip J.1349, (2011) 469
- A travelling photothermal technique employing pyroelectric detection to measure thermal diffusivity of films and coatings. J.Philip, M V Manjusha, H Soumya, Review of Scientific Instruments,82 (2011)104901
- Low power CW optical limiting properties of bis(2-aminopyridinium)-succinate-succinic acid (2APS) single crystal. N.Ramamurthy, S.Dhanusodi, Manjusha M V, J.Philip, Sciencedirect, Optical Materials,33 (2011) 607-612
- Thermal transport across Incommensurate phase in Potassium Selenate: Photopyroelectric and calorimetric measurements. J.Philip and M.V.Manjusha Jour. Of. Phys. Coden. Matt. 21 (2009) 045901
- Thermal properties of Dicalcium Lead Propionate across the prominent transition Temperatures M.V.Manjusha and J.Philip Ferroelectric Letters 35 (2008) 107–118
- Thermal Properties of Polytetrafluoroethylene/Sr2Ce2Ti5O16 Polymer / Ceramic Composites. G. Subodh, M. V. Manjusha, J. Philip, M. T. Sebastian, J. Appl. Poly.Sci. 108 (2008) 1716
- A low loss, dielectric substrate in ZnAl2O4–TiO2 system for microelectronic application K. P. Surendran, M. T. Sebastian, M.V. Manjusha and Jacob Philip, J. Appl. Phys 98 (2005) 044101
- A compact photopyroelectric set up for the determination of temperature variation of the thermal conductivity and heat capacity of solids M.V.Manjusha and J.Philip, J. Instrument Soc. of India 33 (2003) 133-137
- Dielectric properties & Antibacterial Characteristics of Sol-Gel Synthesized BiFeO3 & Co-Doped BiFeO3 Nanoparticles. Vishnu K Kumar, Manjusha M V, Abhirami Sajeev and Devika Biju, International Conference on Nanoscience and Nanotechnology for Sustainability: Energy and Health Care (ICoNNS 2024), Department of Basic Science and Humanities, SCMS School of Engineering and Technology as part of Fulbright Specialist Program during July 4-5, 2024.
- Eco-friendly synthesis of Magnesium oxide & Silver doped Magnesium oxide nanoparticles: Investigating their antibacterial effects & Dielectric properties. Vishnu K Kumar, Manjusha M V, Abhirami Sajeev and Devika Biju, International Conference on Nanoscience and Nanotechnology for Sustainability: Energy and Health Care (ICoNNS 2024), Department of Basic Science and Humanities, SCMS School of Engineering and Technology as part of Fulbright Specialist Program during July 4-5, 2024.
- A comparative study on the antibacterial properties of Zinc Oxide nanoparticles synthesized through chemical and biological route. Vishnu K Kumar, Anna Joemo C, Manjusha M V and Princy Varghese, International Conference on Advanced materials for Sustainability (ICAMS 2023), University of Calicut, Kozhikode, Kerala, India, Dec. 21-23, 2023
- Structural Characterization of Pure and Fe doped Barium Titanate and their Potential in Antibacterial Activity. Abhirami R Shenoy, Abhirami Anil and Manjusha M V, International Conference on recent advances in physical science (ICRAPS 2023), Ernakulam, Kerala, India, Nov. 28-30, 2023
- Synthesis and Characterisation of Bismuth Ferrite (BiFeO3) nanoparticles: Exploring their Antibacterial Activity. Venkidesh T V and Manjusha M V, National seminar on recent innovations in nanoscience and nanomaterials, Ernakulam, Kerala, India, Oct. 18-19, 2023
- Synthesis and Optical Characterisation of Fe doped Barium Titanate nanoparticles. Dhanya Raj and Manjusha M V, Second International Conference of Science and Technology of Advanced Materials, Ernakulam, Kerala, India, April 18-20, 2023
- Effect of doping on the structural properties of Barium Titanate nanoparticles Dhanya Raj and Manjusha M V, National Seminar on Advanced materials & applied physics (NSAMAP), Pathanamthitta, Kerala, India Jan. 12-13, 2023
- Thermal transport properties of selected ferroelectrics, mixed valance perovskites and dielectric ceramics using photopyroelectric technique M.V.Manjusha DAE Solid State Physics Symposium, BARC, Mumbai, India Dec.16-20, 2008
- Thermal transport across Different phases in Potassium Selenate: Photo-pyroelectric and calorimetric measurements M.V.Manjusha and J.Philip, DAE Solid State Physics Symposium, BARC, Mumbai, India Dec.16-20, 2008
- Thermal transport properties of potassium selenate –a Photopyroelectric study M.V.Manjusha and J.Philip, Kerala Science Congress ,Thiruvananthapuram, Kerala, India, Jan. 28-31, 2008
- Thermal properties of Dicalcium lead propionate crystals using photothermal Technique. M.V.Manjusha and J.Philip, DAE Solid State Physics Symposium, Mysore, India De.27- 31, 2007
- Transient photoconduction in Te doped LaMnO3 in the ceramic phase. M.V.Manjusha and J.Philip, ISNOG (2006) Bangalore.
- Bismuth Ferrite/Barium Titanate (BiFeO3/BaTiO3) Thick Films for High Energy Applications: A Review Dhanya Raj, Venkidesh T. V., and Manjusha M. V. (Book chapter- Accepted & publishing on January 2024)
- A Comprehensive Overview of Magnetic Energy Storage Applications of Barium Titanate Nanoparticles: A Review, Dhanya Raj and Manjusha M. V. (Book chapter- Accepted & publishing on September 2024)
- A review of Green Synthesis and Characterization Techniques for Bismuth Ferrite Nanoparticles and Their Applications, Venkidesh T. V., and Manjusha M. V., (Book chapter- Accepted & publishing on October 2024)
Head of Department, Purchase Commitee convenor
Our research focuses on the synthesis and characterization of multiferroic perovskite nanoparticles, including Bismuth Ferrite, Barium Titanate, Strontium Titanate, and their doped variants. We are currently preparing and analyzing these nanoparticles to explore their structural, optical, and magnetic properties. The applications of these materials are diverse and promising, particularly in the fields of biomedical technology and energy storage. Our aim is to enhance the functional properties of these nanoparticles through precise doping techniques, thereby optimizing their performance for specific applications.