KURINJINATHAN PANNEERSELVAM
@psgcas.ac.in
Assistant Professor, Department of Physics
PSG College of Arts & Science
RESEARCH, TEACHING, or OTHER INTERESTS
General Physics and Astronomy, Materials Science, General Materials Science, Multidisciplinary
Scopus Publications
Scholar Citations
Scholar h-index
Scholar i10-index
Scopus Publications
Kurinjinathan Panneerselvam, Anita R. warrier, Roselin Ranjitha Mathiarasu, Ta Thi Thuy Nga, Ramana Ramya J, Thanigai Arul Kumaravelu, Wu-Ching Chou, Yu-Cheng Huang, Jeng-Lung Chen, Chi-Liang Chen,et al.
Elsevier BV
M. V. Muppuli, K. Rajesh, D. Anitha Rexalin, K. Anandan, K. Gayathri, A. Mani, P. Devendran, V. Thayanithi, P. Kurinjinathan, and M. Suresh Kumar
Pleiades Publishing Ltd
R. Vijayaraj, K. Altaff, M. Jayaprakashvel, R. Muthezhilan, B. Saran, P. Kurinjinathan, Selvakumari Jeyaperumal, Venkatesan Perumal, R. M. Saravana Kumar, and Lakshmanan Govindan
MDPI AG
In this research article we report the potentials of chitin-based silver nanoparticles (chitin AgNPs) derived from Indian mimic goatfish (Mulloidichthys ayliffe) scales as an effective food preservation agent. The study comprehensively presents the multifaceted attributes of chitin AgNPs, including their synthesis, characterization, and antimicrobial properties. Chitin yield from M. ayliffe scales and three-spot swimming crab (P. sanguinolentus) exoskeleton was determined, with the insoluble content quantified. FTIR analysis unveiled distinct absorption peaks for chitin, and scanning electron microscopy revealed the ultrastructure of chitin from both the sources. Using UV–visible spectroscopy, the biosynthesis of AgNPs was accomplished and characterized, with the color shift of the solution serving as proof of a successful synthesis. UV–vis spectra provided insights into nanoparticle size and shape. SEM micrographs exhibited spherical particle morphology, while FTIR spectra indicated amino group interactions contributing to AgNP stabilization. The antimicrobial potential of chitin AgNPs was assessed against the food pathogen, Vibrio spp. Chitin films displayed significant antimicrobial activity, particularly AgNP-synthesized chitin from M. ayliffe scales, demonstrated the highest Vibrio spp. inhibition activity. Furthermore, chitin AgNPs were incorporated into the common chili, Capsicum annuum and the tomato, Solanum lycopersicum to extend their shelf life at room temperature. This study reveals the efficacy of chitin AgNPs from M. ayliffe scales as potent agents for food preservation, offering insights into their physical, mechanical, and antimicrobial attributes. The application of chitin AgNPs to perishable food items highlights their potential in enhancing shelf life and quality, opening innovative avenues for sustainable food preservation.
Kurinjinathan Panneerselvam, Anita R Warrier, Thileep Kumar K, Roselin Ranjitha Mathiarasu, Raghu Subashchandrabose, Yu-Cheng Huang, Thanigai Arul Kumaravelu, Chung-Li Dong, Asokan Kandasami, and Ramana Ramya Jayapalan
Elsevier BV
R. Vijayaraj, P. Kurinjinathan, K. Rajesh, K. Anandan, V. Thayanithi, and P. Devendran
Springer Science and Business Media LLC
Roselin Ranjitha Mathiarasu, Kurinjinathan Panneerselvam, P. Senthil Kumar, Gayathri Rangasamy, Raghu Subashchandrabose, and Mary George
Elsevier BV
Roselin Ranjitha Mathiarasu, Kurinjinathan Panneerselvam, Bhuvaneswari Selvaraj, Selvakumar Dharmaraj, Veeramuthu Ashokkumar, Pau Loke Show, and Mary George
Elsevier BV
Roselin Ranjitha Mathiarasu, Ayyar Manikandan, Kurinjinathan Panneerselvam, Mary George, K. Kanmani Raja, M.A. Almessiere, Y. Slimani, A. Baykal, Abdullah M. Asiri, Tahseen Kamal,et al.
Elsevier BV
Roselin Ranjitha Mathiarasu, A. Manikandan, Jeena N. Baby, Kurinjinathan Panneerselvam, Raghu Subashchandrabose, Mary George, Y. Slimani, M.A. Almessiere, and A. Baykal
Elsevier BV
Panneerselvam Kurinjinathan, Pandiyaraj Kanagavalli, Pei-Rong Li, Murugan Veerapandian, Han-Wei Chang, Ping-Hung Yeh, K. Asokan, K. Thanigai Arul, and Chung-Li Dong
Elsevier BV
Abstract Tin (Sn2+) ions incorporated hydroxyapatite (HAp) nanospheres are prepared by wet chemical. The Sn2+ ions lead to reduce crystallite size with modified vibration groups. The nanosphere is achieved on incorporation. The surface area and pore diameter are enhanced at low Sn2+ ions (11.29%). The specific capacitance (231 F g-1 at 3 mAg−1) (230%) is augmented at higher incorporation (27.27%) compared to pristine. The 100% cyclic stability up to 800 cycles is achieved. Here, the correlated partial amorphization, atomic disorder and surface properties are realized. Thus, the tin-calcium phosphate demonstrates an outstanding candidate for electrochemical energy storage application.
Raja Raghavan, Seshadri Srinivasan, Santhanam Venkatakrishnan, Kurinjinathan Panneerselvam, and Suvasini Chandramouleeswaran
Elsevier BV
Kurinjinathan Panneerselvam, K. Thanigai Arul, Anita R. Warrier, K. Asokan, and Chung-Li Dong
AIP Publishing
The disposal of carcinogenic synthetic dye waste in water poses major challenges and threats the environmental safety. In this work, we address the issue of dye removal by adsorption using inorganic materials, Hydroxyapatite (HAp) with and without doping metal ions (Fe3+ and Co2+) are synthesized via facile co-precipitation route. These compounds are characterized by X-ray diffraction analysis, FTIR, Raman, SEM, UV-Vis and photoluminescence studies for confirming the phase, structure, morphology, composition and optical properties. The adsorption capacity of these samples were explored against Congo red dye. Enhanced adsorption efficiency (95.6%) is attained for iron doped HAp. Using various kinetic models, the adsorption kinetics of the dye is deliberated. Hence, based on the overall results, metal ions doped HAp could be employed as a feasible novel adsorbent material for industrial waste water treatment.The disposal of carcinogenic synthetic dye waste in water poses major challenges and threats the environmental safety. In this work, we address the issue of dye removal by adsorption using inorganic materials, Hydroxyapatite (HAp) with and without doping metal ions (Fe3+ and Co2+) are synthesized via facile co-precipitation route. These compounds are characterized by X-ray diffraction analysis, FTIR, Raman, SEM, UV-Vis and photoluminescence studies for confirming the phase, structure, morphology, composition and optical properties. The adsorption capacity of these samples were explored against Congo red dye. Enhanced adsorption efficiency (95.6%) is attained for iron doped HAp. Using various kinetic models, the adsorption kinetics of the dye is deliberated. Hence, based on the overall results, metal ions doped HAp could be employed as a feasible novel adsorbent material for industrial waste water treatment.
P. Kurinjinathan and K. Thanigai Arul
Bentham Science Publishers Ltd.