International Journal of Energetic Materials
https://materials.journalspub.info/index.php?journal=IJEM
<p><strong> International Journal of Energetic Materials</strong></p><p><strong> (IJEM)</strong></p><p><strong> eISSN: <strong><span id="DataList1_ctl00_Label11">2456-3978</span></strong></strong></p><p><strong> <a href="/index.php?journal=IJEM&page=about&op=editorialTeam">Complete Editorial Board</a></strong></p><p><strong> Scientific Journal Impact Factor (SJIF): <span>5.995</span></strong></p><p><strong><strong><span id="lblJournalName">International Journal of Energetic Materials (IJEM): </span></strong></strong><span id="lblJournalName">It</span><strong><strong><span id="lblJournalName"> </span></strong></strong><span id="lblDiscription">is a peer-reviewed journal that establishes an international forum for all aspects of energetic materials. Journal focuses on the emerging trends in the field of propellants, thermal protection material and detonation. International journal of energetic material publishes good quality original research articles and review papers. <span>It's a biannual journal, started in 2015.</span></span></p><p><strong>Journal DOI no.: <strong>10.37628/IJEM</strong></strong></p><p><strong>Indexed in: Journal TOC, Google Scholar, <span>Advanced Science Index, PUBLONS, Scimago Journal and Country Rank, <strong>Index Copernicus (<a href="https://journals.indexcopernicus.com/search/details?id=124808">ICV: 67.42</a>)</strong></span></strong></p><p><strong><strong>Readership:</strong><span> <strong>Graduates, Postgraduates, Research Scholars, Faculty</strong></span></strong></p><p><span><strong><span><strong>Focus and Scope Cover:</strong></span></strong></span></p><p>• Explosives<br />• Pyrotechnic compositions<br />• Rocket and Missile Propellants<br />• synthesis and sensitivity of energetic materials<br />• Molecular orbital calculations<br />• Thermal decomposition and hazards testing<br />• Detonation and/or Deflagration Processes<br />• Rocket Thermal Protection Materials<br />• Combustion of Energetic Materials<br />• Munitions Use and Demilitarization</p><p><span>All contributions to the journal are rigorously refereed and are selected on the basis of quality and originality of the work. The journal publishes the most significant new research papers or any other original contribution in the form of reviews and reports on new concepts in all areas pertaining to its scope and research being done in the world, thus ensuring its scientific priority and significance.</span></p><p><strong>Submission of Paper: </strong><strong></strong></p><p>All contributions to the journal are rigorously refereed and are selected on the basis of quality and originality of the work. The journal publishes the most significant new research papers or any other original contribution in the form of reviews and reports on new concepts in all areas pertaining to its scope and research being done in the world, thus ensuring its scientific priority and significance.</p><p>Manuscripts are invited from academicians, students, research scholars and faculties for publication consideration.</p><p>Papers are accepted for editorial consideration through email <strong>chemistry.journals@celnet.in or chemistry.editor@celnet.in</strong></p><p><strong>Subject: Physics, Electricals, Energetic Materials</strong></p><p><strong>Abbreviation: IJEM</strong></p><p><strong>Frequency</strong>: <strong>Two issues per year</strong></p><p><a href="http://journalspub.com/AllEditorsJournalwise.aspx?jid=52&jname=International%20Journal%20of%20Energetic%20Materials"><strong>Editorial Board</strong></a></p><p><a href="/index.php?journal=IJEM&page=about&op=editorialPolicies#peerReviewProcess"><strong>Peer Review Process</strong></a></p><p><a href="http://journalspub.com/pdf/Guidelines%20for%20authors.pdf"><strong>Instructions to Author</strong></a></p>en-USInternational Journal of Energetic MaterialsA Brief Review of Simonkolleite Nanoparticles: Synthesis, Characterizations, and Their Transformative Impact Across Industries
https://materials.journalspub.info/index.php?journal=IJEM&page=article&op=view&path%5B%5D=1039
<em>The rapid progress in nanotechnology has ignited a quest for innovative materials tailored to specific application needs or designed to enhance particular characteristics. Among these, simonkolleite, a zinc-based material, has emerged prominently in scientific discussions due to its promising properties with diverse medical, health, and environmental applications. This systematic review delves into the extensive literature on simonkolleite, unraveling its myriad applications across various fields. Often associated with ZnO-related research, Simonkolleite is characterized by structural attributes that have garnered attention for their potential contributions. This review comprehensively explores its applications, including its cytotoxicity against cancer cells, acceleration of rat skin healing, use in encapsulation technology for bone regeneration and post-operative orthopedic surgery, promotion of biogas production, bacteriological control in crop cultures, and efficacy in adsorption and degradation of chemical agents in aqueous solutions. Beyond these applications, simonkolleite exhibits promise in thermal decomposition, photovoltaic cells, gas detection, and superconductor production. Numerous studies underscore its potential, emphasizing the need for additional research to elucidate the underlying mechanisms of action and behavior. This systematic review sheds light on the current state of knowledge and catalyzes future advancements in this burgeoning field. In conclusion, simonkolleite is a versatile and promising material with applications ranging from medical treatments to environmental solutions. The exploration of its multifaceted uses in this systematic review highlights its current applications and lays the groundwork for further research and development in the evolving landscape of nanotechnology</em>Anielle Christine Almeida SilvaJosé Diego M. de AquinoWesley Silva M. RibeiroMatheus Vinicius da SilvaThaís Karine de L. Rezende
Copyright (c) 2024 International Journal of Energetic Materials
2024-03-212024-03-2191364710.37628/ijem.v9i1.1039Exploring Aptamer Applications in Analytical Chemistry, Medicine, and Food Industry.
https://materials.journalspub.info/index.php?journal=IJEM&page=article&op=view&path%5B%5D=1003
<p>Many studies have been conducted and a large number of isolated aptamers for different targets have been used since Ellington and Gold's independent description of aptamer and its in vitro selection method, known as SELEX, in 1990. With excellent binding affinity and selectivity, aptamers can bind to a variety of targets, such as haptens, small organic molecules, inorganic compounds, and even entire cells. Currently, aptamers for a large variety of targets have been chosen. Aptamers are also simple to handle or store because they are thermostable and readily regenerable after a short period of denaturation. Aptamers are highly suited for uses involving molecular recognition as analytical, therapeutic, and diagnostic instruments because of these benefits. This review will cover the current uses of aptamers in the fields of medicine, food security, and chemistry analysis, as well as potential future developments.</p>Neha SahuRizwan Arif
Copyright (c) 2024 International Journal of Energetic Materials
2024-03-082024-03-08912127Corrosion and Corrosion Protection of Carbon Steel
https://materials.journalspub.info/index.php?journal=IJEM&page=article&op=view&path%5B%5D=1037
Carbon steel is a very important metal for petroleum industries. Petroleum refineries are used bulk amount of carbon steel for purification of crude oil. Some amount of carbon dioxide and sulphur dioxide present in crude oil. Both gases are acidic in nature so they generate hostile medium for metal. These gases convert into carbonic and sulphuric acid and develop electrochemical cell on the surface of metal and aggravate corrosion reaction. Metal undergoes corrosion reaction and it exhibits various forms of corrosion like galvanic, pitting, stress and crevice corrosion. During processing of crude oil different temperatures can be applied due to temperature variation so metal shows crack and intergranular corrosion. Hetero-cyclic organic compound 6, 11,11-trimethyldecahydro-6,8-methanobenzo [8]annulene-5,10-diylidenebisthiourea was synthesized to mitigate corrosion of carbon steel. The corrosion rate of metal was calculated by gravimetric method and potentiostat technique. Poteintiostat used to determine electrode potential, corrosion current and corrosion current density. The immersion test of uncoated and coated metal can be done at different temperatures and concentrations of carbonic acid. The coating compound adsorption phenomenon studied by Langmuir, Freundlich and Temkin isotherms. Thermal parameters like activation energy, heat of adsorption, free energy, enthalpy and entropy confirmed bonding, thin film formation randomness and nature of reaction of coating compound. This compound enhanced durability, stability, surface coverage area and coating efficiency in carbon dioxide medium. Keywords: Corrosion, carbon steel, thin film barrier, carbon dioxide, temperature, crude oil.Rajesh Kumar SinghKuldeep SinghBirendra Bihari
Copyright (c) 2024 International Journal of Energetic Materials
2024-02-212024-02-2191283510.37628/ijem.v9i1.1037Brief Review on Strontium-Based Compounds and Their Electrocatalytic Applications
https://materials.journalspub.info/index.php?journal=IJEM&page=article&op=view&path%5B%5D=1002
<p>Strontium-based compounds have garnered significant attention due to their multifaceted properties and potential applications in various fields. Of particular interest is their role in electrocatalysis, which aligns with the imperative of developing efficient and sustainable energy conversion technologies. This comprehensive review paper investigates ten prominent strontium-based compounds, unveiling their synthesis methods, degradation behaviors, magnetic characteristics, and most notably, their catalytic applications. By shedding light on these compounds' electrocatalytic potential, the paper elucidates their capacity to revolutionize energy conversion processes. From the stability of strontium titanate to the magnetic influences of strontium ferrite, each compound's unique attributes are meticulously examined, underlining the importance of tailoring synthesis pathways for desired electrocatalytic outcomes. This review bridges the gap between fundamental materials science and practical electrocatalytic applications, ultimately contributing to the advancement of sustainable energy technologies.</p>Aqsa BashirShakir KhanShafaq ZahidShafi Ur RehmanFawad Ahmad
Copyright (c) 2023 International Journal of Energetic Materials
2023-11-172023-11-179110.37628/ijem.v9i1.1002Harnessing Solar Energy by Floating Solar Panels on the Low Tide Costal Regions
https://materials.journalspub.info/index.php?journal=IJEM&page=article&op=view&path%5B%5D=982
<p>Solar energy, which is free, inexhaustible, environmentally beneficial, and sustainable to the environment, is emphasized due to the decrement of a conservative energy and also the finances energy request. Nevertheless, outcomes with land availability, land development and accession, significant capacity, quitting, as well as timely authorizations for this project paper on earth and quitting, are impediments of this paper conclusion. These issues were confronted by the government and scheme partners throughout the implementation of the solar projects are as in state. Most of the sites of the government has predicted are warm and dry areas based on conflicts of the solar radiation in the state. Despite the fact that it looked that the radiation was stronger at these sites, the heating of the surface has reduced the energy production of these points.</p>Sada Sivaiah MutyamB. Sai DineshP Kavipriya M.E.3
Copyright (c) 2023 International Journal of Energetic Materials
2023-09-052023-09-0591110A Conductive Polymer Based Electrode in Asymmetric Supercapacitor
https://materials.journalspub.info/index.php?journal=IJEM&page=article&op=view&path%5B%5D=947
<p>Most applications and devices in today's smart world rely on electricity to function. In this circumstance, energy storage and energy conservation are critical practices for delivering excellent service. In terms of energy efficiency, rotational stability, and charging and discharging time, supercapacitors exceed batteries. It can withstand a lot more power than standard capacitors<br />and batteries. In asymmetric designs, this paper looked at how to achieve the high voltage window and high energy storage capacity. Here, porous graphene is deposited on carbon cloth to form a cathode electrode on a supercapacitor, and the carbon cloth (CC) with carbon nanotube (CNT) is polymerized with polyaniline to act as an anode, and the electrochemical performance is<br />investigated using PVA/ potassium hydroxide as an electrolyte. At a scan rate of 20 mV/s and a current density of 0.8 A/g, the suggested ASC obtained a specific capacitance of 220F/g. The proposed ASC has a 2 V as working voltage window that may be extended at a rate of 20 mV/s. This ASC's key benefit is that it can keep 98 percent of its energy after 5000 cycles. As a result , the<br />proposed polymer-based anode and porous graphene oxide- based cathode is the optimum choice for constructing Asymmetric supercapacitors.</p>Kavitha HariramanMukil AlagirisamyJanani Selvam
Copyright (c) 2023 International Journal of Energetic Materials
2023-05-122023-05-12913650