JASN

🌐 Unlocking Mathematical Mysteries in Graph Theory! 🔍

📚 The latest issue of JASN features a compelling study: "Connection between Graphs' Chromatic and Ehrhart Polynomials" by Ola A. Neamah and Shatha A. Salman.

📈 This research bridges the gap between two fundamental concepts in graph theory: chromatic and Ehrhart polynomials. It delves into their interrelation, providing new insights into the structure and interactions of graphs.

🧮 Understanding this connection opens doors to solving complex mathematical and scientific problems more efficiently. The authors not only establish the relationship between these polynomials but also present the proof of theorems and discuss applications, notably in modeling Physical Cell ID (PCID).

🔗 Explore this intriguing study and its impact on graph theory and beyond: https://doi.org/10.53293/jasn.2023.6994.1220

🔬 Discover the Multifaceted World of Mannich Base Ligands! ⚗️

📚 The Journal of Applied Sciences and Nanotechnology's latest issue features a comprehensive review: "Versatile Applications of Mannich Base Ligands and their Metal ‎Complexes."

👨‍🔬👩‍🔬 Authored by Enass J. Waheed, Ali M. A. Al-Khazraji, and Awf A. R. Ahmed, this review delves into the manifold applications of Mannich base ligands and their metal complexes in various fields.

💊 The study highlights the significant role of these compounds in the pharmaceutical industry, demonstrating their potential in fighting diseases like cancer, HIV, and tuberculosis, thanks to their anti-microbial, antiviral, and anti-inflammatory properties.

🏭 Beyond healthcare, Mannich bases contribute to industrial applications, including polymer creation, detergents, and corrosion inhibition, showcasing their versatility.

🌟 Furthermore, the luminescent properties of Mannich base metal complexes are revolutionizing the field of optoelectronics, paving the way for advanced sensing platforms and light-emitting devices.

🔗 Explore the full spectrum of applications and the future potential of Mannich base ligands in this insightful review: https://doi.org/10.53293/jasn.2023.7033.1228

🍃🔬 Exploring the Power of Nature in Nanotechnology! 🌿🔬

📚 Check out the latest from The Journal of Applied Sciences and Nanotechnology: "Biogenic Synthesis, Spectroscopic Characterization and Bioactivity of Cymbopogon citratus Derived Silver Nanoparticles."

🌱 Led by Narcisse B. Basosila, Clément L. Inkoto, Ormiel M. Maganga, and their colleagues, this innovative study harnesses the natural properties of Cymbopogon citratus (lemongrass) for green synthesis of silver nanoparticles.

🔎 Using cutting-edge spectroscopic techniques, the team characterized these biologically synthesized nanoparticles, revealing a size of 29.49 nm and diverse bioactivities.

🦠 Remarkably, these nanoparticles exhibit potent bactericidal effects against E. coli, S. aureus, and P. aeruginosa, showcase larvicidal activity against Anopheles mosquito larvae, and demonstrate significant antioxidant properties.

💊 This groundbreaking research opens new avenues in biomedicine, offering eco-friendly solutions for treating bacterial infections, malaria, and oxidative stress-related diseases.

🔗 Dive into this fascinating study for more insights: https://doi.org/10.53293/jasn.2023.7012.1226

🌟 New Breakthrough in Nanotechnology! 🧪

📖 The Journal of Applied Sciences and Nanotechnology proudly presents an insightful study in its latest edition: "Microstructure-Modulated Antibacterial Performance of Chemically Precipitated SnO2 Nanoparticles."

🔬 Authored by Shatha Sh. Batros, Mohammed H. Ali, and Ali J. Addie, this research explores the synthesis of tin oxide (SnO2) nanoparticles through a simple and eco-friendly chemical precipitation process.

💡 The study meticulously examines how the calcination temperature (300°C, 400°C, and 500°C) influences the crystallite size of the nanoparticles and their antibacterial efficacy. Advanced characterization techniques like XRD, SEM, EDS, and FTIR were employed to analyze the nanoparticles' properties.

🦠 Remarkably, the SnO2 nanoparticles showed significant antibacterial activity against common bacterial strains like Escherichia coli and Staphylococcus aureus. The study reveals an inverse relationship between the crystallite size of SnO2 and its antibacterial behavior, offering new insights into the design of antibacterial agents.

🔗 Explore this fascinating research and its implications in nanotechnology: https://doi.org/10.53293/jasn.2023.7107.1246

🌟 Discover Cutting-Edge Research in Plasma Physics! 🌌

📚 The latest issue of The Journal of Applied Sciences and Nanotechnology (JASN) features an intriguing study: "Stimulated Raman Scattering of Q-Gaussian Laser Beam in an Unmagnetized Plasma."

👨‍🔬👩‍🔬 The research, authored by Ahmed S. Ahmed, Hyder A. Salih, Khaleel I. Hassoon, and Sukhdeep Kaur, delves into the complex interactions between a q-Gaussian laser beam and an unmagnetized plasma.

💡 This groundbreaking study explores how the self-focusing action of a pump laser beam affects stimulated Raman scattering (SRS). Through advanced analytical and numerical methods, it reveals significant alterations in the power of scattered waves due to this self-focusing.
🔬 Key findings show that as the intensity of both the laser beam and plasma density increases, so does the yield of SRS. The study also highlights how the scattering occurs at a greater distance for a self-focused beam compared to the pump beam.

🔗 Dive into this fascinating study and uncover more about the dynamics of plasma and laser interactions: https://doi.org/10.53293/jasn.2023.7035.1230

🔬✨ Exciting Breakthrough in Bioinformatics! ✨🔬

📖 The Journal of Applied Sciences and Nanotechnology is thrilled to showcase a groundbreaking study in its latest issue: "Bioinformatical Prediction of G-quadruplex Aptamer for Detection of a Ligand in Practice."
👩‍🔬🧑‍🔬 Authored by Mohammad Reza Hosseini VeleshKolaei, Pooria Gill, Adele Rafati, and Marzieh Adiani, this pioneering research introduces a novel bioinformatical approach to detecting ligands, specifically aflatoxin M1.
🧬 The study delves into the innovative use of G-quadruplex aptamers, a new generation of analyte identifiers known for their high sensitivity, accuracy, and environmental resilience. These aptamers form unique G-quadruplex nanostructures, acting enzymatically to produce visible signals for easy detection.
🔍 Using advanced molecular simulators and bioinformatics techniques, the team has successfully predicted the structure of these aptamers, offering a groundbreaking alternative to traditional SELEX methods.
🔗 Read more about this fascinating study: https://doi.org/10.53293/jasn.2023.7058.1234
🧪 Discover how this research is revolutionizing the field of bioinformatics and nanotechnology!

🎉 Exciting Announcement: The Fourth Issue of The Journal of Applied Sciences and Nanotechnology (JASN) is Now Available! 🎉

🚀 Dive Into the World of Innovation and Advanced Research with JASN's Latest Release! 🚀

The much-awaited fourth issue of The Journal of Applied Sciences and Nanotechnology (JASN) is finally here, bringing a wealth of knowledge and groundbreaking research right to your fingertips! This latest issue is a vibrant mosaic of cutting-edge studies and reviews in the fields of bioinformatics, plasma physics, nanotechnology, and more. It's a must-read for scientists, researchers, students, and all science enthusiasts!

🧬 Exploring Bioinformatics: G-quadruplex Aptamer for Ligand Detection - Delve into the intricate world of bioinformatics with a pioneering study on G-quadruplex aptamers. This article reveals new methods for detecting specific ligands, showcasing a significant leap in diagnostics and therapeutic applications.

🔬 Advancements in Plasma Physics: Q-Gaussian Laser Beam in Unmagnetized Plasma - Uncover the complexities of plasma physics with a detailed analysis of Q-Gaussian laser beams. This study provides new insights into stimulated Raman scattering, offering exciting possibilities for future laser and plasma technologies.

🌿 Nanotechnology Meets Microbiology: SnO2 Nanoparticles - Discover the novel antibacterial properties of chemically precipitated tin dioxide nanoparticles. This research highlights how microstructural modifications can enhance antibacterial effectiveness, opening doors to new applications in healthcare and environmental sciences.

🌱 Green Synthesis: Lemongrass-derived Silver Nanoparticles - Embrace eco-friendly nanotechnology with an article on biogenic synthesis of silver nanoparticles using Cymbopogon citratus (lemongrass). This study not only covers the synthesis and characterization but also explores the bioactive potential of these environmentally sustainable nanoparticles.

🧪 Chemistry in Focus: Mannich Base Ligands and Metal Complexes - Dive into a comprehensive review of Mannich base ligands and their metal complexes. This article explores their diverse applications, highlighting their importance in various fields from catalysis to pharmaceutical development.

📊 Mathematical Insights: Chromatic and Ehrhart Polynomials - For the mathematically inclined, this issue presents an intriguing connection between chromatic polynomials in graph theory and Ehrhart polynomials, offering new perspectives in the realm of discrete mathematics and algebraic geometry.

📚 The fourth issue of JASN is not just a publication; it's a journey through the forefront of scientific discovery and innovation. Don't miss out on this incredible compilation of research and reviews.

Grab your copy now and be a part of the scientific revolution with The Journal of Applied Sciences and Nanotechnology!

🌐🔬🧪🧬🌿📈

Journal of Applied Sciences and Nanotechnology - Articles List google-site-verification=aHT1Thk3ABG7JUdSdnj0q6hk99ZyVmYVMHR5VzpbHU8

Exciting News from The Journal of Applied Sciences and Nanotechnology (JASN): Issue Four Coming This December!

🌟 Get Ready for Innovation and Discovery! 🌟
This December, prepare to dive into a world of cutting-edge research with the release of the fourth issue of The Journal of Applied Sciences and Nanotechnology (JASN). This issue promises to be a treasure trove of scientific advancements and novel applications, especially in the realms of bioinformatics, plasma physics, nanotechnology, and more!

🧬 Bioinformatical Prediction of G-quadruplex Aptamer for Detection of a Ligand in Practice: Explore the intersection of bioinformatics and practical application with an insightful article on G-quadruplex aptamers. This groundbreaking research provides a new pathway for detecting specific ligands, a breakthrough with significant implications in both diagnostics and therapeutics.
🔬 Stimulated Raman Scattering of Q-Gaussian Laser Beam in an Unmagnetized Plasma: Delve into the world of plasma physics with a study on Q-Gaussian laser beams. This research uncovers new aspects of stimulated Raman scattering, paving the way for advancements in laser technology and plasma applications.
🌿 Microstructure-Modulated Antibacterial Performance of Chemically Precipitated SnO2 Nanoparticles: Nanotechnology meets microbiology in this fascinating study. Discover how the microstructure of tin dioxide nanoparticles can be modulated to enhance antibacterial properties, a finding with potential applications in medical devices and environmental sanitation.
🌱 Biogenic Synthesis, Spectroscopic Characterization, and Bioactivity of Cymbopogon citratus Derived Silver Nanoparticles: This study takes a green approach to nanotechnology, using Cymbopogon citratus (lemongrass) to synthesize silver nanoparticles. The article discusses the synthesis process, spectroscopic characterization, and the bioactivity of these eco-friendly nanoparticles.
🧪 Versatile Applications of Mannich Base Ligands and their Metal ‎Complexes: A Review Article: Delve into the world of chemistry with a comprehensive review of Mannich base ligands and their metal complexes. This article covers the wide range of applications for these compounds, from catalysis to pharmaceuticals.
📊 Connection between Graphs' Chromatic and Ehrhart Polynomials: For those interested in the mathematical side of science, this article explores the intriguing connection between chromatic polynomials in graph theory and Ehrhart polynomials. This research offers insights into the interplay between discrete mathematics and algebraic geometry.

🎉 Stay tuned for this captivating issue of JASN, set to inspire and inform. Whether you're a scientist, student, or simply a science enthusiast, this issue is not to be missed!

📚 Follow us for more updates and get ready to expand your horizons with The Journal of Applied Sciences and Nanotechnology.

🔍🌐

Journal of Applied Sciences and Nanotechnology google-site-verification=aHT1Thk3ABG7JUdSdnj0q6hk99ZyVmYVMHR5VzpbHU8

📚 Explore New Horizons for Your Research! 🌍

Are you an author passionate about sharing your research findings with a global audience? Look no further! The Journal of Applied Sciences and Nanotechnology (JASN) welcomes authors from around the world to publish their valuable work, and the best part is, there are NO Article Processing Charges (APCs) for authors outside of Iraq!

Why choose JASN for your research publication?

✨ Diverse Readership: Reach a broad and engaged readership interested in applied sciences and nanotechnology.

🌐 Global Exposure: Your research will be accessible to scholars, professionals, and enthusiasts worldwide.

🔍 Rigorous Review Process: Benefit from a thorough peer-review process to ensure the quality and integrity of your work.

📝 Varied Research Areas: JASN covers a wide range of scientific disciplines, providing a platform for multidisciplinary research.

📜 Open Access: Your work will be freely accessible to all, fostering knowledge sharing and collaboration.

Publishing with JASN not only allows you to showcase your research but also supports the global scientific community in their quest for knowledge. Join us in advancing scholarly communication and contributing to the growing body of scientific literature.

Ready to share your insights? Submit your manuscript to JASN today and be a part of our vibrant scientific community. No APCs for authors outside of Iraq mean more opportunities to make your research heard!

Don't miss this chance to make an impact. Visit our website and learn more about JASN's submission guidelines and review process.

🌟 Start Your Publishing Journey with JASN Today! 🌟

Journal of Applied Sciences and Nanotechnology google-site-verification=aHT1Thk3ABG7JUdSdnj0q6hk99ZyVmYVMHR5VzpbHU8

We are pleased to announce the publication of a new article in JASN, titled "An Alternative Method for Estimating the Phase Fraction of Multiphase Nanomaterials: Analysis from X-ray Diffraction". This article presents a novel approach for determining the phase fraction of multiphase nanomaterials using X-ray diffraction (XRD) data.

Key Highlights of the Article:

-Proposes a simple and versatile method for quantifying the phase fraction of nanomaterials with two or more phases.
-Overcomes the limitations of the Spurr-Myers method, which is restricted to TiO2 and biphasic samples.
-Demonstrates the method's accuracy and precision through rigorous testing.
-Provides a valuable tool for understanding the relationship between phase fraction and material properties.

Authors:

Peverga Rex Jubu, Khaled M. Chahrour, Yushamdan Yusof, A. Nathan-Abutu, V. M. Igba, E. Danladi, O. S. Obaseki, M. B. Ochang, W. V. Zhiya, F. K. Yam

Affiliations:

Department of Physics, Joseph Sarwuan Tarka University Makurdi (University of Agriculture Makurdi) – Nigeria

Department of Mechanical Engineering, Faculty of Engineering, Karabuk University – Turkey

School of Physics, Universiti Sains Malaysia – Malaysia

Materials Science Department, Centro de Investigaci´on en Materiales Avanzados – Mexico

Facultad de Ciencias Quimicas, Universidad Autonoma de Coahuila – Mexico

Department of Physics, Federal University of Health Sciences Otukpo – Nigeria

Access the full article here:

https://doi.org/10.53293/jasn.2023.7002.1222

We encourage researchers in the field of nanomaterials and X-ray diffraction to explore this valuable contribution to the literature. The proposed method has the potential to significantly impact the characterization and understanding of multiphase nanomaterials.

JASN editorial team,