c) 2023 - 131 Documents

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    SECURED DATA TRANSMISSION USING PARETO OPTIMIZATION BASED LION SWARM OPTIMIZATION AND DOUBLE ENCRYPTION BASED BLOWFISH ALGORITHM IN WSN
    (Association for Computing Machinery, 2023-12) Gripsy Viji, J; Kowsalya, R; Banupriya, C.V; Sathya, R
    The protection of wireless sensor networks is a complex challenge due to the inherent characteristics of the sensors themselves. These sensors are characterized by their low memory capacity, constrained energy resources, and lack of early awareness regarding their specific placement within the distribution environment. In order to safeguard the integrity and confidentiality of data during transmission, it is imperative to uphold fundamental security measures. This duty elucidates many methodologies for safeguarding data transmission. The primary objective of this research endeavor is to ensure the security of the Wireless Sensor Network (WSN). Several studies and approaches have been proposed; nonetheless, the comprehensive understanding of time and safety remains largely unexplored. The current methodologies exhibit limitations in terms of temporal efficiency and the security of Wireless Sensor Networks (WSNs). In order to address the aforementioned concerns, this research study proposes the utilization of the Pareto Optimization Based Lion Swarm Optimization and Double Encryption based Blowfish method (PLSO-DEBF) method as a means to enhance overall system performance. The primary contributions of this study encompass the development of a comprehensive system model, the utilization of PLSO-DEBF for the selection of transmission nodes, and the incorporation of secure data transmission inside the system model. By leveraging the efficient algorithms of Wireless Sensor Networks (WSNs), this approach demonstrates enhanced performance.
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    HAEMATOCOCCUS: BIOCHEMISTRY, BIOTECHNOLOGY AND BIOMEDICAL APPLICATIONS (Book)
    (Springer Nature, 2023-01-01) Raja, Rathinam; Hemaiswarya, Shanmugam; Narayanan, Mathiyazhagan; Kandasamy, Sabariswaran; Jayappriyan, K R
    This book offers a comprehensive analysis of microalgal cultivation methods and optimization of astaxanthin production for various applications, including clinical uses, algae polymers, proteins and pigments, food applications and packaging, algae forming, cosmetics, and more. Microalgae are unicellular living forms and are the primary producers that play a major role in the ecosystem. Commercially, while many documents are available, some recent fields are yet to be explored. The book comprises 19 chapters contributed by experts and reviews the recent developments in the cultivation, harvest, and genetic engineering of H. pluvialis-derived astaxanthin. It also discusses their bottlenecks and challenges in commercial-scale production, as well as current and prospective global market. Current research supports the exploration of new topics and practical applications of microalgae and their products, which will also benefit academia. The book will be an importantresource for researchers and industry, providing comprehensive knowledge on broad topics. Flow charts, updated methods, and colour images are included to help the readers' understanding.
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    ANTI-OBESITY, ANTI-DIABETIC AND ANTI-INFLAMMATORY ACTIVITY OF CAMPONOTUS COMPRESSUS EXTRACT; IN VITRO AND IN-SILICO STUDIES
    (National Documentation Centre, 2023-12) Karthika, K; Yamuna, R
    Background: In recent years, there has been a growing interest in the potential health benefits of insects, mainly ants, due to the, in them, presence of potential bioactive substances that can play a major role in therapeutic research. In the present study, the therapeutic potential of Camponotus compressus extract was studied, focusing on its bioactive compounds and their diverse applications. Methods: The anti-obesity, anti-diabetic, and anti-inflammatory activity of the C. compressus extract was assessed through various assays, i.e., its anti-obesity potential was determined by the pancreatic lipase inhibition assay, the anti-diabetic activity was analyzed using an α-amylase inhibition assay, whereas the anti-inflammatory activity was studied using a heat induced hemolysis and albumin denaturation inhibition assay. The extract’s mode of action was explored through in-silico studies, whereas ADMET properties were also evaluated. Results: In line with previous findings, the GC-MS analysis revealed 32 bioactive compounds, including some major constituents, such as the 2,3-dihydroxypropyl elaidate and lycoxanthin. The extract exhibited concentration-dependent anti-obesity effects and α-amylase inhibition, suggesting anti-diabetic potential. The anti-inflammatory properties of the extract were confirmed through heat-induced hemolysis and albumin denaturation inhibition assays. The in-silico studies revealed strong binding affinities with target proteins, whereas ADMET analysis supported drug-likeness. Conclusion: Based on our results, the C. compressus extract holds therapeutic promise that could potentially be useful against obesity, diabetes, and inflammation. The study provides insights into its mode of action, supporting its potential as a novel drug candidate.
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    STRUCTURE AND REACTIVITY OF HALOGENATED GC PNA BASE PAIRS – A DFT APPROACH
    (Journal of Experimental Biology and Agricultural Sciences, 2023-11-30) Ranjithkumar, Rajamani; Indumathi, K; Srimathi, P; Praveena, G; Ling Shing, Wong; Sinouvassane, Djearamane
    The present study explored the structural and reactivity relationship of halogenated G-C PNA base pairs using density functional theory (DFT) calculations. The halogens such as F, Cl, and Br are substituted by replacing H atoms involved in H-bonds of the base pairs. All structures were optimized using the B3LYP/6-311++G** theory level, and positive frequencies confirmed their equilibrium states. To understand the structural variations of the considered halogenated systems, the bond distances of R─X, R─H, and X/H•••Y and the bond angles of R─X•••Y were analyzed. The obtained structural parameters and interaction energies are comparable with the previous theoretical reports. In addition, the interaction energies (Eint) and quantum molecular descriptors (QMD) are also calculated to understand the difference between halogenated PNA systems and their non-halogenated counterparts. In this study, the enhancement in the reactivity properties of halogenated PNA systems has been demonstrated, which indicates their improved responsive characteristics in various chemical reactions. Based on the available results, the halogenated PNA systems, carefully considering their substitutional position, facilitate better accommodation for the triplex formation of dsDNA/dsRNA. Therefore, it is concluded that the improved reactivity properties of halogenated PNA base pairs would make them potential candidates for various biological applications.
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    FINITE-TIME DISSIPATIVITY OF DISCRETE TIME REPEATED SCALAR NONLINEAR SYSTEMS
    (ICIC Express Letters, 2023-12) Ganesan, Arthi
    This paper mainly discusses the issue of finite-time boundedness and dissipativity of discrete-time repeated scalar nonlinear systems with time-varying delays. Finite-time analysis of system is an important issue which deals with the bound of system trajectories over a fixed finite-time interval. The aim is to design an appropriate observer such that the resulting error system is finite-time stable and strictly finite-time (Q, S, R) dissipative. Employing the linear matrix inequality (LMI) approach together with a novel Lyapunov-Krasovskii functional, the sufficient conditions for the discrete-time system with repeated scalar nonlinearities to be finite-time bounded and finite-time dissipative are derived. Finally, based on the LMI conditions, a numerical example with simulation is provided to verify the efficiency of the derived theoretical results.
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    PALLADIUM-BASED CATALYTIC TREATMENT AND A RHIZOBACTERIAL-ASSISTED DETOXIFICATION FOR THE ENHANCED REMOVAL OF LINDANE
    (Nature Environment and Pollution Technology, 2023) Rachana, Sharma; Prabhu, Thangadurai
    This study aimed to assess the efficacy of a bimetallic system consisting of Mg0-Pd0 and the bacterium Acinetobacter sp. for the complete detoxification of lindane. Our results demonstrate that palladium immobilized on activated charcoal achieved a removal rate of >99% for 100 mg.L-1 of Lindane within 10 minutes, with the accumulation of trace amounts of intermediates. The reductive transformation of lindane followed 1st-order kinetics, with a calculated rate constant (kobs) of 0.77 min-1. The bimetallic system resulted in the formation of a non-toxic hydrocarbon as the end-product, indicating complete dehalogenation of lindane. Furthermore, Acinetobacter sp. effectively mineralized >98% of 100 mg.L-1 of Lindane after 26 h of cultivation without any accumulation of toxic metabolite(s) in the reaction medium, demonstrating the efficiency of the biological system. Integrating both chemical and biological systems could provide significant advantages for the treatment of lindane, reducing the treatment time and overall cost. This synergistic approach can significantly enhance the overall removal efficiency of lindane from contaminated soil and water.
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    INVESTIGATION OF DIHYDROGEN BONDED INTERACTION IN X3CH⋅⋅⋅HNA, X2CH2⋅⋅⋅HNA (X = F, CL, AND BR) BINARY AND TERNARY COMPLEXES: A DFT AND DFT-D3 APPROACH
    (Springer Link, 2023) Parimala devi, Duraisamy; Prince Makarios Paul, S; Praveena, Gopalan; Jeba Beula, R; Abiram, Angamuthu
    A theoretical study was conducted to investigate the dihydrogen and alkali-halogen bonding in binary X3CH⋅⋅⋅HNa, X2CH2⋅⋅⋅HNa and ternary complexes 2(X3CH)⋅⋅⋅HNa, 2(X2CH2)⋅⋅⋅HNa (where X = F, Cl, Br). The computations were performed using the B3LYP method with different basis sets, namely pople’s (6-311++G**) and dunning type (aug-cc-pVDZ and aug-cc-pVTZ). Additionally, dispersion-corrected density functional theory calculations were carried out for all the structures. The interpretation of structural parameters through interaction energy revealed that Br3CH⋅⋅⋅HNa complex has the shortest binding distance with more interaction energy. The results illustrate that the H⋅⋅⋅H interaction is strengthened in the ternary complexes compared to binary. The vibrational analysis divulged that C–H and H–Na stretching frequencies are blue and red shifted upon dihydrogen bond formation. Moreover, natural bond orbital (NBO), quantum theory of atoms in molecule (QTAIM), non-covalent interaction (NCI)–reduced density gradient (RDG) analysis were carried out to understand the nature of intermolecular interactions, followed by the molecular electrostatic potential (MEP) analysis which confirm the existence of non-covalent interaction between C‒H and H–Na bonds.
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    A COMPREHENSIVE REVIEW ON TAILORING FACTORS OF POROUS BISMUTH OXYHALIDE PHOTOCATALYSTS FOR WASTEWATER TREATMENT APPLICATION
    (Elsevier, 2023-11-25) Prasenjit, Kar; Govindasamy, Sathiyan; Vivekanandan, K E; Geetha, Venkatesan; Govindasamy, Siva; Ramesh, Subramani; Sabariswaran, Kandasamy
    Photocatalysis is a green, environmentally friendly approach for converting organic contaminants into harmless byproducts. Especially, Bismuth oxyhalides (BiOX, where X = Cl, Br and I) have emerged as promising photocatalysts for wastewater treatment due to their layered-by-layered structure, strong chemical stability and nontoxicity in compare to other metal oxides, which makes the photocatalyst advantageous for photocatalytic application.
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    INVESTIGATING SIX TYPES OF BAMBOO CHARCOAL FOR ECO-FRIENDLY RENEWABLE ENERGY GENERATION
    (Springer Link, 2023-12-15) Thanpisit, Phuangchik; Paramasivam, Shanmugam; Sabariswaran, Kandasamy; Sirin, Bunnag; Supakorn, Boonyuen
    The aim of this study was to investigate the physical and chemical properties of six types of bamboos: Kim sung (Bambusa beecheyana), Sang nuan (Dendrocalamus membranaceus Munro), Sang mon (D. sericeus Munro), Poe mae tawo (D. copelandii1), Man moo (D. copelandii2), and Ruak (Thyrsostachys siamensis) aged 1 year, 2 years, and 3 years, at culm. A torrefaction process was used to bring samples to a temperature of 340 °C. The residue was then ground into a fine powder, and the mass yield, energy yield, and physical and chemical composition were determined. The obtained mass yield and energy yield were 40.90–54.28% and 54.91–70.70%, respectively. The maximum heat value was at 1 year of culm age. D. membranaceus yielded the highest heat value at 24.36 Mj/kg and also had the lowest ash content of 4.97%. D. copelandii1 had the lowest moisture content of 1.72%. D. copelandii2 had the lowest volatile matter at 50.00%, and T. siamensis had the highest fixed carbon at 41.04%. At 2 years of culm age, D. membranaceus had the highest heat value of 23.80 Mj/kg, lowest ash content of 4.63%, and lowest moisture content of 1.12%. D. copelandii1 had the lowest volatile matter at 48.83%. T. siamensis had the highest fixed carbon, of 45.40%, at 3 years of culm age. T. siamensis had the highest heat value of 23.64 Mj/kg, the highest fixed carbon at 44.66%, and the lowest ash content at 5.86%. D. copelandii2 had the lowest moisture at 2.54% and also the lowest volatile matter at 42.03%. Our results suggest that D. membranaceus and T. siamensis are leading candidates as torrefied fuel sources.
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    BIOLOGICAL CONTROL OF TOXIC MICROBIAL METABOLITES IN THE REFORMULATED FOOD
    (Elsevier, 2023-11-03) Gokul Priya, Thangavelu; Anand Raj, Dhanapal; Ramkumar, Samynathan; Baskar, Venkidasamy; Muthu, Thiruvengadam; Andrey, Nagdalian; Mohammad Ali, Shariati
    Reformulation of food tends to make nutritious foodstuff available for all, but food spoilage and food poisoning may arise due to microorganisms present in the surroundings. Preservation of reformulated food is necessary to maintain the nutritional supplements and to augment the safer foods the consumers. There are many ways of preservation, including the alternative physical and chemical methods. This chapter is based on biopreservation, that is, biological control of food spoilage in the reformulated foods. Microorganisms produce toxins such as bacteriocins that have the potential to inhibit/destroy the other microorganisms, which is one of the ways to persevere formulated food.