https://journals.christuniversity.in/index.php/mapana/issue/feed Mapana Journal of Sciences 2025-07-25T09:40:30+00:00 Dr Manoj B manoj.b@christuniversity.in Open Journal Systems <p><strong>Mapana Journal of Sciences (MJS)</strong></p> <p><span style="font-weight: 400;">Mapana Journal of Sciences (MJS) publishes high-quality original articles that make a significant contribution to the research areas of both theoretical and applied science.</span></p> <p><span style="font-weight: 400;"><strong>Mapana Journal of Sciences</strong> is included in the <a href="https://ugccare.unipune.ac.in/Apps1/User/WebA/DesciplinewiseList?DiscpID=1&amp;DiscpName=Arts%20and%20Humanities">UGC-CARE List </a>. (<strong>Group I, Sr.No. 330, Sciences</strong>)</span></p> <p><span style="font-weight: 400;">This journal is an efficient enterprise where the editors play a central role in soliciting the best research papers, and where editorial decisions are reached in a timely fashion. </span></p> <p><span style="font-weight: 400;">The purpose of the journal is coverage of different aspects of Science. We publish original research, review article and research communications from all areas of the Natural and Mathematical sciences. The journal publishes articles, which are focused on existing and new methods, techniques and approaches in the field of Science. MJS publishes contemporary and innovative research, including theoretical, conceptual and empirical research papers. Primarily it has four themes (namely Physical Sciences, Chemical Sciences, Mathematical and Computational Sciences and Biological Sciences) with many sub themes. Each issue has a theme, though fundamental research contributions in the said domain remain welcome.</span></p> <p><strong>The journal does not charge any article processing or article submission charges from the authors.</strong></p> https://journals.christuniversity.in/index.php/mapana/article/view/5264 Unlocking the Potential of Microalgae: Renewable Biofuel Technologies, Barriers, and Future Directions 2025-05-24T04:36:30+00:00 Amal Halder amal.halder1@gmail.com Sampiya Banerjee sampiyabanerjee2001@gmail.com <p>Researchers are looking for an alternative source of energy due to the increment of energy demand and environmental pollution caused by fossil fuels. Recent reports said that microalgae are efficient for biofuel production due to its high growing ability, low production cost and potential to grow in severe environments. There are many photosynthetic microalgae which consume CO<sub>2</sub> and sunlight for growth in biomass and thus provide a promising source of bioenergy. This review paper presents the recent technologies to produce microalgal biofuel. Besides this, the cultivation and harvesting processes and environmental factors that influence the microalgal biofuel production have also been discussed. This review paper also discusses how to attain carbon neutrality through the several biofuel generations and also discusses their applications and limitations in agriculture and environment. In future, researchers should give attention to identify better strains of algae which produce good quality biofuel of a high yield better than economically feasible algal biofuel. Future research is needed to produce a higher amount of product because in recent days most of the algae face the uneconomical higher costs. Finally this review paper gives an exposure for a better biofuel in future.</p> 2025-07-22T00:00:00+00:00 Copyright (c) 2025 Amal Halder, Sampiya Banerjee https://journals.christuniversity.in/index.php/mapana/article/view/6997 A Review of Nano Structured Thermites and Explosives 2025-05-30T03:38:15+00:00 Agin P agin7733@gmail.com Ashisha A Aloysius ashisha@ajkcas.com Dhaneesh K John dhaneeshjohn777@gmail.com <p>Primary explosives have been a crucial component of defense systems since long, but the currently used lead-based primary explosives are highly harmful to the environment and toxic to living beings. Nanostructured materials have offered quite an improvement in this regard, offering a greener source of primary explosive with improved safety and reliability, while also offering better performance. This has led many major military groups to conduct considerable research in this domain. The SFE method is a highly efficient and favoured method for the production of such nanoenergetic materials, offering good productivity and industrial compatibility for mass-scale manufacturing. The nanoenergetic particles thus prepared, exhibit better combustion properties when mixed with nanothermites to form NSTEX composites. These loose powder composites have shown considerable improvement with respect to metal-based primary explosives which are currently employed in explosive and pyrotechnic applications. However, the ultimate challenge that exists in this domain is the production of practical and operational systems from these highly energetic nanopowders. This research is still in its early stages and breakthrough in this domain may unlock a vast array of opportunities for the development of safer and more efficient defence systems.</p> 2025-07-22T00:00:00+00:00 Copyright (c) 2025 Agin P, Ashisha A Aloysius, Dhaneesh K John https://journals.christuniversity.in/index.php/mapana/article/view/6942 Advancement in Age Estimation in Forensic Science Through Molecular Fingerprinting Techniques – A Review Paper 2025-07-11T08:26:01+00:00 Ajayakumar A ajuajayakumar.02@gmail.com Kiruthiga U kiruthi21u@gmail.com Arpan Datta Roy arpan.dattaroy_tripura@nfsu.ac.in <p>Dactyloscopy has long been used for personal identification from the latent fingerprint residues; capable of providing an insight into various factors of an individual such as age, sex, habits and lifestyle. Various studies have been conducted to precisely identify the changes in sweat glands’ activity and the chemical breakdown of fingerprint residues with respect to time. However, there yet to be established a reliable method for accurately estimating or approximating the age of the fingerprint donor. The emerging field of molecular fingerprinting, which analyses latent fingerprint sweat residue and profiles the components present in it, which aid in personal identification as an individualistic marker specific to an individual. This review article highlights the advancements in estimating the age of the fingerprint donor from the latent fingerprint residue and addresses the technical and technological research gaps in the molecular fingerprinting technique’s timeline as this method hold a potential in aiding the forensic investigation and criminal profiling from the fingerprints retrieved from the scene of crime.</p> 2025-08-13T00:00:00+00:00 Copyright (c) 2025 Ajayakumar A, Kiruthiga U, Arpan Datta Roy https://journals.christuniversity.in/index.php/mapana/article/view/7115 SYNTHESIS, CHARACTERIZATION, IN SILICO ADME PROFILING, MD SIMULATIONS AND UNVEILING ANTIBACTERIAL ACTIVITIES OF NOVEL (E)-5-AMINO-3-STYRYL-1H-PYRAZOLE-4-CARBONITRILE DERIVATIVES: A TANDEM MICHAEL ADDITION APPROACH 2025-07-25T09:40:30+00:00 SIVADHARANI P dharahavan823@gmail.com JAYAPRADHA S R srjayapradha2023@gmail.com <p>An ease and eco friendly- environment benign, time-efficient Tandem Michael addition for the synthesis of (E)-5-amino-3-styryl-1H-pyrazole-4-carbonitrile derivatives using the components of Cinnamaldehyde, hydrazine, and malononitrile through a Multicomponent (MCR) approach have been developed.&nbsp; Using AlCl<sub>3</sub> as a catalyst in aqueous ethanol (1:1) medium, it yields 79–89% of the pyrazole derivative within the period of 30 minutes.&nbsp; The synthesised compounds were investigated for MM2 to predict the molecular behaviour and energy calculation by Chem 3D software, ADME (Absorption, distribution, metabolism, and excretion) properties using Swiss ADME software to profile pharmacokinetic properties of potential drugs, and the compounds' molecular docking (MD) simulations procedure was done with the proteins 4O9I and 2HI9 Hydrolase inhibitors. The protein-ligand interactions between the synthesised compound and the chosen protein revealed antibacterial activity against the bacteria, i.e., Escherichia coli, Klebsiella oxytoca, Staphylococcus aureus, and Staphylococcus epidermidis, with improved results shows the role of hydrolase inhibitors and their relevance in biological activity.&nbsp; These intriguing findings indicate that the synthesised compounds might be suitable candidates for the development of novel antibacterial drugs in drug discovery.</p> 2025-08-13T00:00:00+00:00 Copyright (c) 2025 SIVADHARANI P, JAYAPRADHA S R https://journals.christuniversity.in/index.php/mapana/article/view/7042 Synthesis, Structural Characterization, and Quantum Chemical Analysis of (E)-2-(1-(4-Bromophenyl)ethylidene)hydrazinecarbothioamide: A Potential Candidate for Biological Applications 2025-05-24T04:54:11+00:00 R R Saravanan saravapj@gmail.com <p><em>This study reports the synthesis, structural characterization, and computational analysis of a novel compound, (E)-2-(1-(4-bromophenyl)ethylidene)hydrazine (EBEHC), synthesized via condensation of 1-(4-bromophenyl)ethanone and thiosemicarbazide in methanol. Yellow single crystals were obtained through recrystallization. Single-crystal X-ray diffraction revealed that EBEHC crystallizes in a monoclinic system (space group P21/c), with a unit cell volume of 1103.56 ų. Experimental and DFT-calculated geometries showed strong correlation, with bond length and angle deviations within 0.02 Å and 3°, respectively. Conformational analysis identified R1(a) as the most stable conformer (energy: -9147715.587 kJ/mol), while R2(b) was least stable (ΔE: +2874.87 kJ/mol). FT-IR and DFT analyses confirmed N–H stretching near 3444 cm</em><em>⁻</em><em>¹</em><em> and C</em><em>–</em><em>Br vibrations near 445 cm</em><em>⁻</em><em>¹</em><em>. Hirshfeld surface analysis revealed significant intermolecular interactions</em><em>—</em><em>hydrogen bonding (45.2%) and halogen contacts (19.4%). Molecular docking indicated favorable binding with cholesterol-reducing targets, suggesting potential anti-cholesterol properties. These findings highlight EBEHC’s promising structural, spectroscopic, and biological characteristics for future therapeutic applications.</em></p> 2025-07-22T00:00:00+00:00 Copyright (c) 2025 R R Saravanan https://journals.christuniversity.in/index.php/mapana/article/view/6625 Design and Development of a Capacitance Sensor for Gas/Gas or Gas/Liquid Void Fraction Detection 2025-03-24T06:31:10+00:00 Kesavan Venkatachalam kesavansilicon@gmail.com <p>The capacitance-based void fraction sensor was developed to detect various types of liquids and gases. This sensor consisted of two semi-concave copper plates mounted parallel to each other on a hollow cylindrical glass tube. A radio frequency signal was applied to the sensor, and changes in the phase shift of the input signal were observed, corresponding to variations in the dielectric constant. Measurements were conducted with different types of liquids and gases, resulting in measurable changes in the phase shift between the input and output signals. The experimental results demonstrated that the phase shift of the signal was proportional to the dielectric constant of the liquid flowing through the pipeline. The measured phase shift was compared with theoretical values, revealing close agreement. These findings support the potential application of the capacitance-based void fraction sensor for detecting liquid and gas flow in pipelines.</p> 2025-07-22T00:00:00+00:00 Copyright (c) 2025 Kesavan venkatachalam https://journals.christuniversity.in/index.php/mapana/article/view/7063 A blockchain- driven access control and data protection framework for industrial IOT systems 2025-07-04T06:25:35+00:00 Yashaswini Gowda yashuyashas99@gmail.com Sujatha S R sujathasr@ssit.edu.in <p>The exponential expansion of Industrial Internet of Things (IIoT) presents major difficulties in guaranteeing strong data security and safe access management over distributed and resource-limited settings. This paper suggests a blockchain-driven architecture combining dynamic access control based on roles with data integrity and confidentiality assurance mechanisms catered for IIoT environments. Three basic levels define the architecture: the IoT layer with intelligent sensors and actuators; the blockchain layer to offer distributed access enforcement and tamper-proof audit trails; and the cloud layer for scalable data storage and processing. Using smart contracts, the system automates access delegation, revocation, and real-time permission changes, hence reducing single points of failure and unwanted access.</p> 2025-07-22T00:00:00+00:00 Copyright (c) 2025 yashaswini gowda https://journals.christuniversity.in/index.php/mapana/article/view/7037 Insight into Indole Derivatives by Experimental and Theoretical Methods 2025-06-12T07:31:22+00:00 Vijayalaxmi Mallayya mallayyalaxmi49@gmail.com Srinath srinathmore@gmail.com <p>&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp; Solvent effect on fluorescence and absorption spectra of fluorescent Indole derivative viz, 5-chloro-3-phenyl-1H-indole-2-carbohydrazide (CPIC) has been studied in different solvents at room temperature. The shifts in the position, intensities and shapes of the absorption and fluorescence bands have been observed. The ground and excited state dipole moment of the fluorescent molecule have been calculated from the Solvatochromic shift method. The excited-state dipole moments were estimated from Lippert, Bakhshiev and Kawski–Chamma–Viallet equations by using the variation of the Stokes’ shift with the solvent dielectric constant and refractive index. The Reichardt‘s microscopic solvent polarity parameter has been used to calculate change in dipole moment. It was found that the excited-state dipole moments were higher than those of the ground-state dipole moment. The large value of dipole moment in the excited state is due to more polar nature. The HOMO-LUMO energy gap and MEP map estimated theoretically by using B3LYP/6-31+G (d, p) basis set of Gaussian 16 program.</p> 2025-08-09T00:00:00+00:00 Copyright (c) 2025 Vijayalaxmi Mallayya, Srinath