Journal Of Nanoparticle Research Impact Factor 2022

Journal of Nanoparticle Research Impact Factor 2022: A Comprehensive Guide

Introduction:

Are you a researcher in nanotechnology, materials science, or a related field? Understanding the impact factor of journals is crucial for publishing your work and maximizing its visibility within the scientific community. This comprehensive guide dives deep into the Journal of Nanoparticle Research (JNR) impact factor for 2022, providing you with all the information you need to make informed decisions about your publication strategy. We'll explore what impact factors mean, how JNR's 2022 factor compares to its history and competitors, and offer insights into maximizing your chances of publication in top-tier journals like JNR. We'll also address frequently asked questions to help you navigate the complexities of academic publishing.

Understanding Journal Impact Factors (JIF):

Before we delve into the specifics of the JNR impact factor 2022, let's clarify what an impact factor actually represents. The Journal Impact Factor (JIF), as calculated by Clarivate Analytics' Journal Citation Reports (JCR), is a metric reflecting the average number of citations received per article published in a particular journal during a specific period (typically the preceding two years). A higher JIF generally suggests greater influence and visibility within the field. However, it's crucial to remember that JIF is just one metric among many and shouldn't be the sole determinant of a journal's quality or suitability for your research. Other factors to consider include the journal's scope, audience, editorial rigor, and publication speed.

Journal of Nanoparticle Research Impact Factor 2022:

Unfortunately, precise and publicly available data for the JNR impact factor for 2022 can vary slightly depending on the database used and the exact release date of the JCR. To obtain the most accurate and up-to-date information, you should consult the official Journal Citation Reports (JCR) database directly. However, based on previous years' trends and general reputation, JNR consistently maintains a respectable impact factor within the nanotechnology and materials science fields. Keep in mind that the impact factor is dynamic and fluctuates from year to year due to various factors, including the number of citations received, the number of articles published, and the overall citation patterns within the field.

Comparing JNR's Impact Factor to Competitors:

To put JNR's impact factor into context, it's helpful to compare it to other leading journals in the field of nanoparticle research. Several journals publish high-quality research in overlapping areas, including ACS Nano, Small, Nano Letters, and Advanced Materials. A comparative analysis of their impact factors will help you understand JNR's relative standing and choose the most appropriate journal for your manuscript based on factors beyond just the JIF. Remember, a higher impact factor doesn't automatically equate to better science. The quality and originality of your research remain paramount.


Strategies for Increasing Your Chances of Publication in High-Impact Journals:

Publishing in a high-impact journal like JNR requires careful planning and execution. Here are key strategies to increase your chances:

Conduct Rigorous Research: The foundation of any successful publication is high-quality research. Ensure your methodology is robust, your data are reliable, and your conclusions are well-supported.

Target the Right Journal: Choose a journal whose scope and audience align with your research. Carefully review the journal's aims and scope, as well as recent publications, to ensure a good fit.

Write a Compelling Manuscript: Your manuscript should be well-written, clearly structured, and easy to understand. Adhere to the journal's author guidelines meticulously.

Address Reviewer Comments Effectively: If your manuscript is rejected, don't be discouraged. Address the reviewers' comments thoughtfully and resubmit to the same or another suitable journal.

Network with Researchers in Your Field: Networking can provide valuable feedback on your work and increase your visibility within the scientific community.


Book Outline: "Navigating the World of Nanoparticle Research Publication"

I. Introduction: The Importance of Journal Selection in Nanoparticle Research

II. Understanding Journal Metrics: Impact Factor, Citation Analysis, and Other Key Indicators

III. Journal of Nanoparticle Research: A Deep Dive: History, Scope, and Editorial Policies

IV. Comparative Analysis: JNR vs. Leading Competitors in the Field

V. Strategies for Successful Publication: Manuscript Preparation, Submission Process, and Reviewer Interaction

VI. Beyond the Impact Factor: Other Factors to Consider When Choosing a Journal

VII. Case Studies: Successful Publication Examples in JNR and Similar Journals

VIII. Future Trends in Nanoparticle Research Publication: Open Access, Preprints, and Alternative Metrics

IX. Conclusion: Making Informed Decisions for Maximum Research Impact


Detailed Explanation of the Book Outline Points:

(I. Introduction): This section would provide context, emphasizing the significance of choosing the right journal to disseminate your nanoparticle research effectively and maximize its impact. It would highlight the competitive nature of academic publishing and the importance of understanding journal metrics.

(II. Understanding Journal Metrics): This chapter would offer a detailed explanation of various journal metrics beyond the impact factor, including citation counts, h-index, altmetrics, and others. It would discuss their limitations and how to interpret them correctly, avoiding common misconceptions.

(III. Journal of Nanoparticle Research: A Deep Dive): This section would focus specifically on the Journal of Nanoparticle Research. It would trace its history, analyze its editorial policies, outline its scope and target audience, and provide practical tips for submitting manuscripts.

(IV. Comparative Analysis): This would involve a direct comparison of JNR with other leading journals in the field, including a side-by-side analysis of their impact factors, publication speed, acceptance rates, and overall reputation.

(V. Strategies for Successful Publication): This critical chapter would provide actionable advice on preparing a high-quality manuscript, navigating the submission process, effectively addressing reviewer comments, and increasing the likelihood of acceptance.

(VI. Beyond the Impact Factor): This chapter would emphasize that the impact factor shouldn't be the sole criterion for journal selection. It would highlight the importance of considering other factors such as the journal's reputation, editorial rigor, audience, and the journal's overall alignment with the research.

(VII. Case Studies): This section would feature real-world examples of successful publications in JNR and similar journals, highlighting the strategies employed by successful authors and the lessons learned from their experiences.

(VIII. Future Trends in Nanoparticle Research Publication): This chapter would discuss the evolving landscape of academic publishing, focusing on trends such as open access publishing, the rise of preprints, and the increasing use of alternative metrics to assess research impact.

(IX. Conclusion): This section would summarize the key takeaways, reinforcing the importance of making well-informed decisions when selecting a journal for your nanoparticle research and emphasizing the need to prioritize research quality above all else.


Frequently Asked Questions (FAQs):

1. What is the exact JNR impact factor for 2022? The precise value varies slightly depending on the source; consult the Journal Citation Reports (JCR) for the most accurate data.

2. Is a high impact factor the only factor I should consider? No, consider scope, audience, editorial rigor, and publication speed.

3. How can I improve my chances of publication in JNR? Conduct rigorous research, write a compelling manuscript, and address reviewer comments effectively.

4. What are some alternative metrics for assessing journal quality? Citation counts, h-index, and altmetrics offer additional perspectives.

5. How long does the publication process typically take in JNR? Publication timelines vary; check the journal's website for estimates.

6. What are the submission guidelines for JNR? Consult the journal's website for detailed instructions.

7. Can I submit my research to multiple journals simultaneously? No, this is generally discouraged and may violate ethical guidelines.

8. What happens if my manuscript is rejected? Address reviewer comments and resubmit to a suitable journal.

9. Are there any open-access options for publishing in JNR? Check the journal's website for details regarding open-access publication fees and policies.


Related Articles:

1. "The Impact Factor Conundrum: A Critical Evaluation of Journal Metrics": Explores the limitations and biases associated with impact factor.

2. "Choosing the Right Journal for Your Nanotechnology Research": Provides a step-by-step guide for selecting an appropriate journal.

3. "Writing a Winning Manuscript for Nanoparticle Research": Offers tips on structuring and writing a compelling research paper.

4. "Navigating the Peer-Review Process: A Guide for Researchers": Provides insights into the peer-review system and strategies for successful publication.

5. "Open Access Publishing in Nanotechnology: Benefits and Challenges": Discusses the advantages and drawbacks of open-access publication.

6. "Alternative Metrics for Evaluating Research Impact": Explores the use of altmetrics beyond traditional citation counts.

7. "The Future of Scientific Publishing: Trends and Predictions": Examines the evolving landscape of academic publishing.

8. "Ethical Considerations in Scientific Publication": Discusses important ethical guidelines for researchers.

9. "Top 10 Nanotechnology Journals: A Comparative Analysis": Presents a comparative overview of leading journals in the nanotechnology field.


  journal of nanoparticle research impact factor 2022: Nanoscale Science and Technology Robert Kelsall, Ian W. Hamley, Mark Geoghegan, 2005-11-01 Nanotechnology is a vital new area of research and development addressing the control, modification and fabrication of materials, structures and devices with nanometre precision and the synthesis of such structures into systems of micro- and macroscopic dimensions. Future applications of nanoscale science and technology include motors smaller than the diameter of a human hair and single-celled organisms programmed to fabricate materials with nanometer precision. Miniaturisation has revolutionised the semiconductor industry by making possible inexpensive integrated electronic circuits comprised of devices and wires with sub-micrometer dimensions. These integrated circuits are now ubiquitous, controlling everything from cars to toasters. The next level of miniaturisation, beyond sub-micrometer dimensions into nanoscale dimensions (invisible to the unaided human eye) is a booming area of research and development. This is a very hot area of research with large amounts of venture capital and government funding being invested worldwide, as such Nanoscale Science and Technology has a broad appeal based upon an interdisciplinary approach, covering aspects of physics, chemistry, biology, materials science and electronic engineering. Kelsall et al present a coherent approach to nanoscale sciences, which will be invaluable to graduate level students and researchers and practising engineers and product designers.
  journal of nanoparticle research impact factor 2022: Cancer Nanotechnology , 2018-06-23 Advances in Cancer Research, Volume 139, provides invaluable information on the exciting and fast-moving field of cancer research. Original reviews are presented on a variety of topics relating to the rapidly developing intersection between nanotechnology and cancer research, with unique sections in the new release focusing on Exosomes as a theranostic for lung cancer, Nanotechnology and cancer immunotherapy, Ultrasound imaging agents and delivery systems, Dendronized systems for the delivery of chemotherapeutics, Thermosensitive liposomes for image-guided drug delivery, Supramolecular Chemistry in Tumor Analysis and Drug Delivery, Gold nanoparticles for delivery of cancer therapeutics, and Single cell barcode microchip for cancer research and therapy. - Provides the latest information on cancer research - Offers outstanding and original reviews on a range of cancer research topics - Serves as an indispensable reference for researchers and students alike
  journal of nanoparticle research impact factor 2022: Metal Oxide Nanoparticles, 2 Volume Set Oliver Diwald, Thomas Berger, 2021-09-14 Metal Oxide Nanoparticles A complete nanoparticle resource for chemists and industry professionals Metal oxide nanoparticles are integral to a wide range of natural and technological processes—from mineral transformation to electronics. Additionally, the fields of engineering, electronics, energy technology, and electronics all utilize metal oxide nanoparticle powders. Metal Oxide Nanoparticles: Formation, Functional Properties, and Interfaces presents readers with the most relevant synthesis and formulation approaches for using metal oxide nanoparticles as functional materials. It covers common processing routes and the assessment of physical and chemical particle properties through comprehensive and complementary characterization methods. This book will serve as an introduction to nanoparticle formulation, their interface chemistry and functional properties at the nanoscale. It will also act as an in-depth resource, sharing detailed information on advanced approaches to the physical, chemical, surface, and interface characterization of metal oxide nanoparticle powders and dispersions. Addresses the application of metal oxide nanoparticles and its economic impact Examines particle synthesis, including the principles of selected bottom-up strategies Explores nanoparticle formulation—a selection of processing and application routes Discusses the significance of particle surfaces and interfaces on structure formation, stability and functional materials properties Covers metal oxide nanoparticle characterization at different length scales With this valuable resource, academic researchers, industrial chemists, and PhD students can all gain insight into the synthesis, properties, and applications of metal oxide nanoparticles.
  journal of nanoparticle research impact factor 2022: Advanced Healthcare Materials Ashutosh Tiwari, 2014-05-09 Offers a comprehensive and interdisciplinary view of cutting-edge research on advanced materials for healthcare technology and applications Advanced healthcare materials are attracting strong interest in fundamental as well as applied medical science and technology. This book summarizes the current state of knowledge in the field of advanced materials for functional therapeutics, point-of-care diagnostics, translational materials, and up-and-coming bioengineering devices. Advanced Healthcare Materials highlights the key features that enable the design of stimuli-responsive smart nanoparticles, novel biomaterials, and nano/micro devices for either diagnosis or therapy, or both, called theranostics. It also presents the latest advancements in healthcare materials and medical technology. The senior researchers from global knowledge centers have written topics including: State-of-the-art of biomaterials for human health Micro- and nanoparticles and their application in biosensors The role of immunoassays Stimuli-responsive smart nanoparticles Diagnosis and treatment of cancer Advanced materials for biomedical application and drug delivery Nanoparticles for diagnosis and/or treatment of Alzheimers disease Hierarchical modelling of elastic behavior of human dental tissue Biodegradable porous hydrogels Hydrogels in tissue engineering, drug delivery, and wound care Modified natural zeolites Supramolecular hydrogels based on cyclodextrin poly(pseudo)rotaxane Polyhydroxyalkanoate-based biomaterials Biomimetic molecularly imprinted polymers
  journal of nanoparticle research impact factor 2022: Computational Nanotechnology Sarhan M. Musa, 2018-09-03 Applications of nanotechnology continue to fuel significant innovations in areas ranging from electronics, microcomputing, and biotechnology to medicine, consumer supplies, aerospace, and energy production. As progress in nanoscale science and engineering leads to the continued development of advanced materials and new devices, improved methods of modeling and simulation are required to achieve a more robust quantitative understanding of matter at the nanoscale. Computational Nanotechnology: Modeling and Applications with MATLAB® provides expert insights into current and emerging methods, opportunities, and challenges associated with the computational techniques involved in nanoscale research. Written by, and for, those working in the interdisciplinary fields that comprise nanotechnology—including engineering, physics, chemistry, biology, and medicine—this book covers a broad spectrum of technical information, research ideas, and practical knowledge. It presents an introduction to computational methods in nanotechnology, including a closer look at the theory and modeling of two important nanoscale systems: molecular magnets and semiconductor quantum dots. Topics covered include: Modeling of nanoparticles and complex nano and MEMS systems Theory associated with micromagnetics Surface modeling of thin films Computational techniques used to validate hypotheses that may not be accessible through traditional experimentation Simulation methods for various nanotubes and modeling of carbon nanotube and silicon nanowire transistors In regard to applications of computational nanotechnology in biology, contributors describe tracking of nanoscale structures in cells, effects of various forces on cellular behavior, and use of protein-coated gold nanoparticles to better understand protein-associated nanomaterials. Emphasizing the importance of MATLAB for biological simulations in nanomedicine, this wide-ranging survey of computational nanotechnology concludes by discussing future directions in the field, highlighting the importance of the algorithms, modeling software, and computational tools in the development of efficient nanoscale systems.
  journal of nanoparticle research impact factor 2022: The British Chess Magazine; Volume 16 Anonymous, 2022-10-27 This work has been selected by scholars as being culturally important, and is part of the knowledge base of civilization as we know it. This work is in the public domain in the United States of America, and possibly other nations. Within the United States, you may freely copy and distribute this work, as no entity (individual or corporate) has a copyright on the body of the work. Scholars believe, and we concur, that this work is important enough to be preserved, reproduced, and made generally available to the public. We appreciate your support of the preservation process, and thank you for being an important part of keeping this knowledge alive and relevant.
  journal of nanoparticle research impact factor 2022: Graphdiyne Yuliang Li, 2022-01-10 Graphdiyne Discover the most cutting-edge developments in the study of graphdiyne from a pioneer of the field In Graphdiyne: Fundamentals and Applications in Renewable Energy and Electronics, accomplished chemist Dr. Yuliang Li delivers a practical and insightful compilation of theoretical and experimental developments in the study of graphdiyne. Of interest to both academics and industrial researchers in the fields of nanoscience, organic chemistry, carbon science, and renewable energies, the book systematically summarizes recent research into the exciting new material. Discover information about the properties of graphdiyne through theoretical simulations and experimental characterizations, as well as the development of graphdiyne with appropriate preparation technology. Learn to create new graphdiyne-based materials and better understand its intrinsic properties. Find out about synthetic methodologies, the controlled growth of aggregated state structures, and structural characterization. In addition to demonstrating the interdisciplinary potential and relevance of graphdiyne, the book also offers readers: A thorough introduction to basic structure and band gap engineering, including molecular and electronic structure, mechanical properties, and the layers structure of bulk graphdiyne Explorations of Graphdiyne synthesis and characterization, including films, nanotube arrays and nanowires, nanowalls, and nanosheets, as well as characterization methods Discussions of the functionalization of graphdiyne, including heteroatom doping, metal decoration, and absorption of guest molecules Rigorous treatments of Graphdiyne-based materials in catalytic applications, including photo- and electrocatalysts Perfect for organic chemists, electronics engineers, materials scientists, and physicists, Graphdiyne: Fundamentals and Applications in Renewable Energy and Electronics will also find its place on the bookshelves of surface and solid-state chemists, electrochemists, and catalytic chemists seeking a one-stop reference on this rising-star carbon material.
  journal of nanoparticle research impact factor 2022: Judgment Under Uncertainty Daniel Kahneman, Paul Slovic, Amos Tversky, 1982-04-30 Thirty-five chapters describe various judgmental heuristics and the biases they produce, not only in laboratory experiments, but in important social, medical, and political situations as well. Most review multiple studies or entire subareas rather than describing single experimental studies.
  journal of nanoparticle research impact factor 2022: Sustainable Nanotechnology Zibiao Li, Jie Zheng, Enyi Ye, 2022-06-17 This book illustrates how green nanotechnology is being used to promote sustainability, including applications in environmental remediation and energy optimization.
  journal of nanoparticle research impact factor 2022: Microwaves in Nanoparticle Synthesis Satoshi Horikoshi, Nick Serpone, 2013-05-03 For the first time, this comprehensive handbook presents the emerging field of microwave technology for the synthesis of nanoparticles. Divided into three parts--fundamentals, methods, and applications--it covers topics including microwave theory, scale-up, microwave plasma synthesis, characterization, and more. This offers both an important volume for academic researchers, and a resource for those in industry exploring the applications of nanoparticles in semiconductors, electronics, catalysis, sensors, and more.
  journal of nanoparticle research impact factor 2022: Density Functional Theory David S. Sholl, Janice A. Steckel, 2011-09-20 Demonstrates how anyone in math, science, and engineering can master DFT calculations Density functional theory (DFT) is one of the most frequently used computational tools for studying and predicting the properties of isolated molecules, bulk solids, and material interfaces, including surfaces. Although the theoretical underpinnings of DFT are quite complicated, this book demonstrates that the basic concepts underlying the calculations are simple enough to be understood by anyone with a background in chemistry, physics, engineering, or mathematics. The authors show how the widespread availability of powerful DFT codes makes it possible for students and researchers to apply this important computational technique to a broad range of fundamental and applied problems. Density Functional Theory: A Practical Introduction offers a concise, easy-to-follow introduction to the key concepts and practical applications of DFT, focusing on plane-wave DFT. The authors have many years of experience introducing DFT to students from a variety of backgrounds. The book therefore offers several features that have proven to be helpful in enabling students to master the subject, including: Problem sets in each chapter that give readers the opportunity to test their knowledge by performing their own calculations Worked examples that demonstrate how DFT calculations are used to solve real-world problems Further readings listed in each chapter enabling readers to investigate specific topics in greater depth This text is written at a level suitable for individuals from a variety of scientific, mathematical, and engineering backgrounds. No previous experience working with DFT calculations is needed.
  journal of nanoparticle research impact factor 2022: Nanostructured Materials T. Daniel Thangadurai, N. Manjubaashini, Sabu Thomas, Hanna J. Maria, 2020-02-27 This book discusses the early stages of the development of nanostructures, including synthesis techniques, growth mechanisms, the physics and chemistry of nanostructured materials, various innovative characterization techniques, the need for functionalization and different functionalization methods as well as the various properties of nanostructured materials. It focuses on the applications of nanostructured materials, such as mechanical applications, nanoelectronics and microelectronic devices, nano-optics, nanophotonics and nano-optoelectronics, as well as piezoelectric, agriculture, biomedical and, environmental remediation applications, and anti-microbial and antibacterial properties. Further, it includes a chapter on nanomaterial research developments, highlighting work on the life-cycle analysis of nanostructured materials and toxicity aspects.
  journal of nanoparticle research impact factor 2022: A Research Strategy for Environmental, Health, and Safety Aspects of Engineered Nanomaterials National Research Council, Division on Engineering and Physical Sciences, National Materials and Manufacturing Board, Division on Earth and Life Studies, Board on Chemical Sciences and Technology, Board on Environmental Studies and Toxicology, Committee to Develop a Research Strategy for Environmental, Health, and Safety Aspects of Engineered Nanomaterials, 2012-05-09 The nanotechnology sector, which generated about $225 billion in product sales in 2009, is predicted to expand rapidly over the next decade with the development of new technologies that have new capabilities. The increasing production and use of engineered nanomaterials (ENMs) may lead to greater exposures of workers, consumers, and the environment, and the unique scale-specific and novel properties of the materials raise questions about their potential effects on human health and the environment. Over the last decade, government agencies, academic institutions, industry, and others have conducted many assessments of the environmental, health, and safety (EHS) aspects of nanotechnology. The results of those efforts have helped to direct research on the EHS aspects of ENMs. However, despite the progress in assessing research needs and despite the research that has been funded and conducted, developers, regulators, and consumers of nanotechnology-enabled products remain uncertain about the types and quantities of nanomaterials in commerce or in development, their possible applications, and their associated risks. A Research Strategy for Environmental, Health, and Safety Aspects of Engineered Nanomaterials presents a strategic approach for developing the science and research infrastructure needed to address uncertainties regarding the potential EHS risks of ENMs. The report summarizes the current state of the science and high-priority data gaps on the potential EHS risks posed by ENMs and describes the fundamental tools and approaches needed to pursue an EHS risk research strategy. The report also presents a proposed research agenda, short-term and long-term research priorities, and estimates of needed resources and concludes by focusing on implementation of the research strategy and evaluation of its progress, elements that the committee considered integral to its charge.
  journal of nanoparticle research impact factor 2022: Safety of Nanoparticles Thomas J. Webster, 2008-11-18 In spite of the potential use of nanomaterials as tissue engineering devices, implants, biosensors, drug delivery devices, etc., there has yet to be a compilation of the risks associated with the in vivo use of nanomaterials. There are numerous and well-known risks because of the size of nanoparticles. For example, nanoparticles can cross cell membranes and enter the cytoplasm undetected. The aim of this book is to provide one of the first (if not the first) detailed views of how cells and tissues in the body deal with nanoparticles. This is important not only for implantable devices, but also for the manufacturing of nanophase materials when particles can be inhaled or enter the body through the skin. Only by compiling research at the intersection of nanoparticles and biological processes can we determine if nanophase materials are safe to be manufactured, handled, and/or implanted for various medical applications.
  journal of nanoparticle research impact factor 2022: Sustainable Crop Production Mirza Hasanuzzaman, Masayuki Fujita, Marcelo Carvalho Minhoto Teixeira Filho, Thiago Assis Rodrigues Nogueira, Fernando Shintate Galindo, 2020-06-17 This book includes twenty-one comprehensive chapters addressing various soil and crop management issues, including modern techniques in enhancing crop production in the era of climate change. There are a few case studies and experimental evidence about these production systems in specific locations. Particular focus is provided on the state-of-the-art of biotechnology, nanotechnology, and precision agriculture, as well as many other recent approaches in ensuring sustainable crop production. This book is useful for undergraduate and graduate students, teachers, and researchers, particularly in the fields of crop science, soil science, and agronomy.
  journal of nanoparticle research impact factor 2022: Handbook of Nanomaterials for Manufacturing Applications Chaudhery Mustansar Hussain, 2020-04-12 Handbook of Nanomaterials for Manufacturing Applications covers the challenges and obstacles involved in using nanomaterials in manufacturing. In particular, the lack of information, the possibility of adverse impacts on the environment, human health, safety and sustainability and other remaining challenges. This book addresses these challenges for the use of nanomaterials in major manufacturing sectors and suggests how they may be overcome. It was written to summarize, in a one-stop, concise manner, how nanomaterials and nanotechnology are being used to enhance current manufacturing techniques and processes in order to create more sustainable products in a range of industry sectors. This book will be of great use to materials scientists and engineers who are looking to gain a greater understanding on how nanotechnology is being used to improve the products we use in our daily lives. - Demonstrates how cutting-edge developments in nanomaterials are being used to make more efficient manufacturing processes in a range of industry sectors - Explores how using nanomaterials can help engineers create innovative consumer products - Discusses the legal, economic and toxicity issues arising from using nanomaterials in manufacturing processes
  journal of nanoparticle research impact factor 2022: Structural DNA Nanotechnology Nadrian C. Seeman, 2015 Written by the founder of the field, this is a comprehensive and accessible introduction to structural DNA nanotechnology.
  journal of nanoparticle research impact factor 2022: Nanopharmaceuticals: Principles and Applications Vol. 3 Vinod Kumar Yata, Shivendu Ranjan, Nandita Dasgupta, Eric Lichtfouse, 2020-08-19 This book is the third volume on this subject and focuses on the recent advances of nanopharmaceuticals in cancer, dental, dermal and drug delivery applications and presents their safety, toxicity and therapeutic efficacy. The book also includes the transport phenomenon of nanomaterials and important pathways for drug delivery applications. It goes on to explain the toxicity of nanoparticles to different physiological systems and methods used to assess this for different organ systems using examples of in vivo systems.
  journal of nanoparticle research impact factor 2022: Chemical and Biochemical Applications Pierre Laszlo, 2012-12-02 NMR of Newly Accessible Nuclei, Volume 1: Chemical and Biochemical Applications is a 10-chapter text that explores the properties, advantages, developments, and chemical and biochemical applications of NMR technique. This book describes first the operation of an NMR spectrometer under its two aspects, namely, the instrumental and the computational aspects. The next chapters are devoted to some of the most important pulse sequences. The discussion then shifts to the various factors determining the position of the observed absorption and those responsible for the various relaxation processes. The last chapters deal with the specific applications of NMR, including in cation salvation, calcium-binding proteins, polyelectrolyte systems, halogens, and antibiotic ionophores. This book is of value to inorganic and analytical chemists, and biophysicists.
  journal of nanoparticle research impact factor 2022: Green Synthesis of Nanoparticles: Applications and Prospects Quaiser Saquib, Mohammad Faisal, Abdulaziz A. Al-Khedhairy, Abdulrahman A. Alatar, 2020-10-19 This book describes various strategies for the synthesis of green nanoparticles using plant extracts and microbes, including the advantages and disadvantages of different methods and their applications. After discussing strategies for and the potential of green synthesis of noble metal nanoparticles, it highlights the role of the solvent system. The book then explores the stability/toxicity of nanoparticles and the associated-surface engineering techniques for achieving biocompatibility, and examines the antimicrobial efficacy of green nanoparticles with regard to various bacterial pathogens, as well as the underlying cytotoxicity mechanisms. Lastly, the book addresses the potential applications of various green nanoparticles in cancer theranostics, and reviews a number of plant-mediated nanoparticles as potential pharmaceutical agents. Given its scope, the book will be of interest to all scientists and students wanting to learn more about the synthesis and applications of green nanoparticles.
  journal of nanoparticle research impact factor 2022: Green Chemistry Paul T. Anastas, John Charles Warner, 2000-01-01 ''As the summary of a vision, the book is brilliant. One can feel the enthusiasm of the authors throughout...I see it as a vehicle for initiating a fruitful dialogue between chemical producers and regulatory enforcers without the confrontation, which often characterizes such interactions.' ' -Martyn Poliakoff, Green Chemistry, February ' Its is an introductory text taking a broad view and intergrating a wide range of topics including synthetic methodologies, alternative solvents and catalysts, biosynthesis and alternative feedstocks. There are exercises for students and the last chapter deals with future trends' Aslib
  journal of nanoparticle research impact factor 2022: Nanocosmetics Arun Nanda, Sanju Nanda, Susai Rajendran, Yassine Slimani, Tuan Anh Nguyen, 2020-05-06 Nanotechnology is key to the design and manufacture of the new generation of cosmetics. Nanotechnology can enhance the performance and properties of cosmetics, including colour, transparency, solubility, texture, and durability. Sunscreen products, such as UV nano-filters, nano-TiO2 and nano-ZnO particles, can offer an advantage over their traditional counterparts due to their broad UV-protection and non-cutaneous side effects. For perfumes, nano-droplets can be found in cosmetic products including Eau de Toilette and Eau de Parfum. Nanomaterials can also be used in cosmetics as transdermal drug delivery systems. By using smart nanocontainers, active compounds such as vitamins, antioxidants, nutrients, and anti-inflammatory, anti-infective agents, can be delivered effectively. These smart nanocontainers are typically related with the smart releasing property for their embedded active substances. These smart releases could be obtained by using the smart coatings as their outer nano-shells. These nano-shells could prevent the direct contact between these active agents and the adjacent local environments. Nanocosmetics: Fundamentals, Applications and Toxicity explores the formulation design concepts and emerging applications of nanocosmetics. The book also focuses on the mitigation or prevention of their potential nanotoxicity, potential global regulatory challenges, and the technical challenges of mass implementation. It is an important reference source for materials scientists and pharmaceutical scientists looking to further their understanding of how nanotechnology is being used for the new generation of cosmetics. - Outlines the major fabrication and formulation design concepts of nanoscale products for cosmetic applications - Explores how nanomaterials can safely be used for various applications in cosmetic products - Assesses the major challenges of using nanomaterials for cosmetic applications on a large scale
  journal of nanoparticle research impact factor 2022: Metal Nanoparticles Daniel L. Fedlheim, Colby A. Foss, 2001-10-26 A state-of-the-art reference, Metal Nanoparticles offers the latest research on the synthesis, characterization, and applications of nanoparticles. Following an introduction of structural, optical, electronic, and electrochemical properties of nanoparticles, the book elaborates on nanoclusters, hyper-Raleigh scattering, nanoarrays, and several applications including single electron devices, chemical sensors, biomolecule sensors, and DNA detection. The text emphasizes how size, shape, and surface chemistry affect particle performance throughout. Topics include synthesis and formation of nanoclusters, nanosphere lithography, modeling of nanoparticle optical properties, and biomolecule sensors.
  journal of nanoparticle research impact factor 2022: Magnetic Nanostructured Materials Ahmed A. El Gendy, Jose Manuel Barandiaran, Ravi L. Hadimani, 2018-06-29 Magnetic Nanostructured Materials: From Lab to Fab presents a complete overview of the translation of nanostructured materials into realistic applications, drawing on the most recent research in the field to discuss the fundamentals, synthesis and characterization of nanomagnetics. A wide spectrum of nanomagnetic applications is included, covering industrial, environmental and biomedical fields, and using chemical, physical and biological methods. Materials such as Fe, Co, CoxC, MnGa, GdSi, ferrite nanoparticles and thin films are highlighted, with their potential applications discussed, such as magnetic refrigeration, energy harvesting, magnetic sensors, hyperthermia, MRI, drug delivery, permanent magnets, and data storage devices. Offering interdisciplinary knowledge on the materials science of nanostructured materials and magnetics, this book will be of interest to researchers in materials science, engineering, physics and chemistry with interest in magnetic nanomaterials, as well as postgraduate students and professionals in industry and government. - Provides interdisciplinary knowledge on the materials science of nanostructured materials and magnetics - Aids in the understanding of complex fundamentals and synthesis methods for magnetic nanomaterials - Includes examples of real applications - Shows how laboratory work on magnetic nanoparticles connects to industrial implementation and applications
  journal of nanoparticle research impact factor 2022: Nanodroplets Zhiming M. Wang, 2014-01-08 Nanodroplets, the basis of complex and advanced nanostructures such as quantum rings, quantum dots and quantum dot clusters for future electronic and optoelectronic materials and devices, have attracted the interdisciplinary interest of chemists, physicists and engineers. This book combines experimental and theoretical analyses of nanosized droplets which reveal many attractive properties. Coverage includes nanodroplet synthesis, structure, unique behaviors and their nanofabrication, including chapters on focused ion beam, atomic force microscopy, molecular beam epitaxy and the vapor-liquid- solid route. Particular emphasis is given to the behavior of metallic nanodroplets, water nanodroplets and nanodroplets in polymer and metamaterial nanocomposites. The contributions of leading scientists and their research groups will provide readers with deeper insight into the chemical and physical mechanisms, properties, and potential applications of various nanodroplets.
  journal of nanoparticle research impact factor 2022: Nanocharacterization Techniques Osvaldo de Oliveira Jr, Ferreira LG Marystela, Fábio de Lima Leite, Alessandra Luzia Da Róz, 2017-03-18 Nanocharacterization Techniques covers the main characterization techniques used in nanomaterials and nanostructures. The chapters focus on the fundamental aspects of characterization techniques and their distinctive approaches. Significant advances that have taken place over recent years in refining techniques are covered, and the mathematical foundations needed to use the techniques are also explained in detail. This book is an important reference for materials scientists and engineers looking for a through analysis of nanocharacterization techniques in order to establish which is best for their needs. - Includes a detailed analysis of different nanocharacterization techniques, allowing readers to explore which one is best for their particular needs - Provides examples of how each characterization technique has been used, giving readers a greater understanding of how each technique can be profitably used - Covers the mathematical background needed to utilize each of these techniques to their best effect, meaning that readers can gain a full understanding of the theoretical principles behind each technique covered - Serves as an important, go-to reference for materials scientists and engineers
  journal of nanoparticle research impact factor 2022: A Quadrennial Review of the National Nanotechnology Initiative National Academies of Sciences, Engineering, and Medicine, Division on Engineering and Physical Sciences, National Materials and Manufacturing Board, Committee on National Nanotechnology Initiative: A Quadrennial Review, 2020-08-26 Global advances in medicine, food, water, energy, microelectronics, communications, defense, and other important sectors of the economy are increasingly driven by discoveries in nanoscience and the development of nanotechnologies. Engaging the nanoscience and technology community in the crafting of national priorities, developing novel approaches for translating fundamental discovery to a technology readiness level appropriate for venture/industry funding, increasing domestic student interest in nanoscience to expand the workforce pipeline, and exploring new ways of coordinating the work of the National Nanotechnology Initiative (NNI) are all imperatives if the United States is to fully reap the societal benefits of nanotechnology. A Quadrennial Review of the National Nanotechnology Initiative provides a framework for a redesign of the NNI and its coordination with the goal of achieving a U.S. resurgence in nanotechnology. This report makes recommendations to improve the value of the NNI's research and development strategy and portfolio to the economic prosperity and national security of the United States.
  journal of nanoparticle research impact factor 2022: Nanoparticles Ramesh S. Chaughule, R. V. Ramanujan, 2010
  journal of nanoparticle research impact factor 2022: Nano-catalysts for Energy Applications Rohit Srivastava, Taylor & Francis (Londyn)., 2021
  journal of nanoparticle research impact factor 2022: Nanomedicine and Cancer Rajaventhan Srirajaskanthan, Victor R. Preedy, 2011-12-20 The nanosciences are a rapidly expanding field of research with a wide applicability to all areas of health. They encompass a variety of technologies ranging from particles to networks and nanostructures. This book focuses on the application of nanomedicine and nanotechnology to cancer. It introduces nanocarriers, nanorods, nanoprobes nanoplatforms, nanorings, nanotubes nanowires, nano-sensor arrays and a variety of methodological techniques. This is done within the framework of numerous cancer types. Contributors are all leading experts and are carrying out groundbreaking work. The book is essential reading for oncologists, research scientists, doctors, health care professionals, pathologists, biologists, biochemists, chemists and physicists as well as those interested in disease and nanosciences or cancer in general.
  journal of nanoparticle research impact factor 2022: Biomedical Polymers Mike Jenkins, Institute of Materials, Minerals, and Mining, 2007-09-10 A review of the latest research on biomedical polymers, this book discusses natural, synthetic, biodegradable and non bio-degradable polymers and their applications. Chapters discuss polymeric scaffolds for tissue engineering and drug delivery systems, the use of polymers in cell encapsulation, their role as replacement materials for heart valves and arteries, and their applications in joint replacement. The book also discusses the use of polymers in biosensor applications. Edited by an expert team of reasearchers and containing contributions from pioneers throughout the field, the book is an essential reference for scientists and all those developing and using this important group of biomaterials.
  journal of nanoparticle research impact factor 2022: Solar Fuel Generation Yatendra S. Chaudhary, 2017-01-20 As the search for renewable sources of energy grows more urgent, more and more attention is focusing on the blueprint offered by biological photosynthesis for translating the energy of our Sun into energy rich molecules like H2 and carbohydrates, commonly known as solar fuels. These solar fuels have enormous potential to store high densities of energy in the form of chemical bonds as well as being transportable. This book offers a complete overview of the promising approaches to solar fuel generation, including the direct pathways of solar H2 generation and CO2 photocatalytic reduction. Solar Fuel Generation is an invaluable tool for graduate students and researchers (especially chemists, physicists, and material scientists) working in this field.
  journal of nanoparticle research impact factor 2022: Biocompatible Hybrid Oxide Nanoparticles for Human Health Inna V. Melnyk, Miroslava Vaclavikova, Gulaim A. Seisenbaeva, Vadim G. Kessler, 2019-06-30 Biocompatible Hybrid Oxide Nanoparticles for Human Health: From Synthesis to Applications explores the synthesis, structure, properties and applications of functionalized oxide nanoparticles. The books shows the applications of materials depending on their composition and structure, with a focus on silicon, titanium and iron oxides, each of which was chosen because of their unique features, including silica because it is chemically resistant to most organic solvents, harmless to living organisms, can thicken flowable formulations, and increase the strength of materials, titania for its unique chemical, optical, electrophysical and bactericidal properties, and iron-containing materials because they possess important magnetic properties. - Shows how oxide nanoparticles are being used to solve current problems in the fields of environmental protection, medicine, and in the creation of smart materials - Includes case studies that explore the major characteristics and applications of silica, titania and iron oxide nanomaterials - Discusses the use of biocompatible oxide nanostructures in the development of new sensing technology
  journal of nanoparticle research impact factor 2022: Green Synthesis, Characterization and Applications of Nanoparticles Ashutosh Kumar Shukla, Siavash Iravani, 2018-11-26 Green Synthesis, Characterization and Applications of Nanoparticles shows how eco-friendly nanoparticles are engineered and used. In particular, metal nanoparticles, metal oxide nanoparticles and other categories of nanoparticles are discussed. The book outlines a range of methodologies and explores the appropriate use of each. Characterization methods include spectroscopic, microscopic and diffraction methods, but magnetic resonance methods are also included as they can be used to understand the mechanism of nanoparticle synthesis using organisms. Applications covered include targeted drug delivery, water purification and hydrogen generation. This is an important research resource for those wishing to learn more about how eco-efficient nanoparticles can best be used. Theoretical details and mathematical derivations are kept to a necessary minimum to suit the need of interdisciplinary audiences and those who may be relatively new to the field. - Explores recent trends in growth, characterization, properties and applications of nanoparticles - Gives readers an understanding on how they are applied through the use of case studies and examples - Assesses the advantages and disadvantages of a variety of synthesis and characterization techniques for green nanoparticles in different situations
  journal of nanoparticle research impact factor 2022: Bionanomaterials Ravindra Pratap Singh, Kshitij R. B. Singh, 2021 This reference text brings together comprehensive reviews of the latest research in the field of bionanomaterials, with a focus on fundamentals and biomedical applications. Detailed coverage of the classification, properties and synthesis of bionanomaterials is provided to enhance readers' understanding. The book combines new ideas to uplift the advancement of bionanomaterials in biomedical research and provides a valuable reference for researchers and advanced students in the fields of biomaterials, bionanotechnology and bioengineering. The major applications covered include nanobiosensing, nanomedicine, diagnostics, therapeutics, tissue engineering and green bionanotechnology. The properties and applications of synthetic bionanomaterials and molecularly-imprinted polymer-based bionanomaterials are also included.
  journal of nanoparticle research impact factor 2022: Nanofabrication Maria Stepanova, Steven Dew, 2011-11-08 Intended to update scientists and engineers on the current state of the art in a variety of key techniques used extensively in the fabrication of structures at the nanoscale. The present work covers the essential technologies for creating sub 25 nm features lithographically, depositing layers with nanometer control, and etching patterns and structures at the nanoscale. A distinguishing feature of this book is a focus not on extension of microelectronics fabrication, but rather on techniques applicable for building NEMS, biosensors, nanomaterials, photonic crystals, and other novel devices and structures that will revolutionize society in the coming years.
  journal of nanoparticle research impact factor 2022: Colloidal Silica Horacio E. Bergna, William O. Roberts, 2005-12-19 In spite of the apparent simplicity of silica's composition and structure, scientists are still investigating fundamental questions regarding the formation, constitution, and behavior of colloidal silica systems. Colloidal Silica: Fundamentals and Applications introduces new information on colloid science related to silica chemistry as well
  journal of nanoparticle research impact factor 2022: The Elements of Style William Strunk Jr., 2023-10-01 First published in 1918, William Strunk Jr.'s The Elements of Style is a guide to writing in American English. The boolk outlines eight elementary rules of usage, ten elementary principles of composition, a few matters of form, a list of 49 words and expressions commonly misused, and a list of 57 words often misspelled. A later edition, enhanced by E B White, was named by Time magazine in 2011 as one of the 100 best and most influential books written in English since 1923.
  journal of nanoparticle research impact factor 2022: Nanotechnologies in Food and Agriculture Mahendra Rai, Caue Ribeiro, Luiz Mattoso, Nelson Duran, 2015-03-31 This book presents a comprehensive overview of new and emerging nanotechnologies. It includes aspects of nanoparticle monitoring, toxicity, and public perception, and covers applications that address both crop growing and treatment of agricultural wastewater. Topics include nanoagrochemicals (nanofertilizers, -pesticides, -herbicides), nanobiosensors, and nanotechnologies for food processing, packaging, and storage, crop improvement and plant disease control. The group of expert authors is led by an experienced team of editors.
  journal of nanoparticle research impact factor 2022: Treatment Planning of High Dose-Rate Brachytherapy - Mathematical Modelling and Optimization Björn Morén, 2021-01-12 Cancer is a widespread class of diseases that each year affects millions of people. It is mostly treated with chemotherapy, surgery, radiation therapy, or combinations thereof. High doserate (HDR) brachytherapy (BT) is one modality of radiation therapy, which is used to treat for example prostate cancer and gynecologic cancer. In BT, catheters (i.e., hollow needles) or applicators are used to place a single, small, but highly radioactive source of ionizing radiation close to or within a tumour, at dwell positions. An emerging technique for HDR BT treatment is intensity modulated brachytherapy (IMBT), in which static or dynamic shields are used to further shape the dose distribution, by hindering the radiation in certain directions. The topic of this thesis is the application of mathematical optimization to model and solve the treatment planning problem. The treatment planning includes decisions on catheter placement, that is, how many catheters to use and where to place them, as well as decisions for dwell times. Our focus is on the latter decisions. The primary treatment goals are to give the tumour a sufficiently high radiation dose while limiting the dose to the surrounding healthy organs, to avoid severe side effects. Because these aims are typically in conflict, optimization models of the treatment planning problem are inherently multiobjective. Compared to manual treatment planning, there are several advantages of using mathematical optimization for treatment planning. First, the optimization of treatment plans requires less time, compared to the time-consuming manual planning. Secondly, treatment plan quality can be improved by using optimization models and algorithms. Finally, with the use of sophisticated optimization models and algorithms the requirements of experience and skill level for the planners are lower. The use of optimization for treatment planning of IMBT is especially important because the degrees of freedom are too many for manual planning. The contributions of this thesis include the study of properties of treatment planning models, suggestions for extensions and improvements of proposed models, and the development of new optimization models that take clinically relevant, but uncustomary aspects, into account in the treatment planning. A common theme is the modelling of constraints on dosimetric indices, each of which is a restriction on the portion of a volume that receives at least a specified dose, or on the lowest dose that is received by a portion of a volume. Modelling dosimetric indices explicitly yields mixed-integer programs which are computationally demanding to solve. We have therefore investigated approximations of dosimetric indices, for example using smooth non-linear functions or convex functions. Contributions of this thesis are also a literature review of proposed treatment planning models for HDR BT, including mathematical analyses and comparisons of models, and a study of treatment planning for IMBT, which shows how robust optimization can be used to mitigate the risks from rotational errors in the shield placement. Cancer är en grupp av sjukdomar som varje år drabbar miljontals människor. De vanligaste behandlingsformerna är cellgifter, kirurgi, strålbehandling eller en kombination av dessa. I denna avhandling studeras högdosrat brachyterapi (HDR BT), vilket är en form av strålbehandling som till exempel används vid behandling av prostatacancer och gynekologisk cancer. Vid brachyterapibehandling används ihåliga nålar eller applikatorer för att placera en millimeterstor strålkälla antingen inuti eller intill en tumör. I varje nål finns det ett antal så kallade dröjpositioner där strålkällan kan stanna en viss tid för att bestråla den omkringliggande vävnaden, i alla riktningar. Genom att välja lämpliga tider för dröjpositionerna kan dosfördelningen formas efter patientens anatomi. Utöver HDR BT studeras också den nya tekniken intensitetsmodulerad brachyterapi (IMBT) vilket är en variation på HDR BT där skärmning används för att minska strålningen i vissa riktningar vilket gör det möjligt att forma dosfördelningen bättre. Planeringen av en behandling med HDR BT omfattar hur många nålar som ska användas, var de ska placeras samt hur länge strålkällan ska stanna i de olika dröjpositionerna. För HDR BT kan dessa vara flera hundra stycken medan det för IMBT snarare handlar om tusentals möjliga kombinationer av dröjpositioner och inställningar av skärmarna. Planeringen resulterar i en dosplan som beskriver hur hög stråldos som tumören och intilliggande frisk vävnad och riskorgan utsätts för. Dosplaneringen kan formuleras som ett matematiskt optimeringsproblem vilket är ämnet för avhandlingen. De övergripande målsättningarna för behandlingen är att ge en tillräckligt hög stråldos till tumören, för att döda alla cancerceller, samt att undvika att bestråla riskorgan eftersom det kan ge allvarliga biverkningar. Då alla målsättningarna inte samtidigt kan uppnås fullt ut så fås optimeringsproblem där flera målsättningar behöver prioriteras mot varandra. Utöver att dosplanen uppfyller kliniska behandlingsriktlinjer så är också tidsaspekten av planeringen viktig eftersom det är vanligt att den görs medan patienten är bedövad eller sövd. Vid utvärdering av en dosplan används dos-volymmått. För en tumör anger ett dosvolymmått hur stor andel av tumören som får en stråldos som är högre än en specificerad nivå. Dos-volymmått utgör en viktig del av målen för dosplaner som tas upp i kliniska behandlingsriktlinjer och ett exempel på ett sådant mål vid behandling av prostatacancer är att 95% av prostatans volym ska få en stråldos som är minst den föreskrivna dosen. Dos-volymmått utläses ur de kliniskt betydelsefulla dos-volym histogrammen som för varje stråldosnivå anger motsvarande volym som erhåller den dosen. En fördel med att använda matematisk optimering för dosplanering är att det kan spara tid jämfört med manuell planering. Med väl utvecklade modeller så finns det också möjlighet att skapa bättre dosplaner, till exempel genom att riskorganen nås av en lägre dos men med bibehållen dos till tumören. Vidare så finns det även fördelar med en process som inte är lika personberoende och som inte kräver erfarenhet i lika stor utsträckning som manuell dosplanering i dagsläget gör. Vid IMBT är det dessutom så många frihetsgrader att manuell planering i stort sett blir omöjligt. I avhandlingen ligger fokus på hur dos-volymmått kan användas och modelleras explicit i optimeringsmodeller, så kallade dos-volymmodeller. Detta omfattar såväl analys av egenskaper hos befintliga modeller, utvidgningar av tidigare använda modeller samt utveckling av nya optimeringsmodeller. Eftersom dos-volymmodeller modelleras som heltalsproblem, vilka är beräkningskrävande att lösa, så är det också viktigt att utveckla algoritmer som kan lösa dem tillräckligt snabbt för klinisk användning. Ett annat mål för modellutvecklingen är att kunna ta hänsyn till fler kriterier som är kliniskt relevanta men som inte ingår i dos-volymmodeller. En sådan kategori av mått är hur dosen är fördelad rumsligt, exempelvis att volymen av sammanhängande områden som får en alldeles för hög dos ska vara liten. Sådana områden går dock inte att undvika helt eftersom det är typiskt för dosplaner för brachyterapi att stråldosen fördelar sig ojämnt, med väldigt höga doser till små volymer precis intill strålkällorna. Vidare studeras hur små fel i inställningarna av skärmningen i IMBT påverkar dosplanens kvalitet och de olika utvärderingsmått som används kliniskt. Robust optimering har använts för att säkerställa att en dosplan tas fram som är robust sett till dessa möjliga fel i hur skärmningen är placerad. Slutligen ges en omfattande översikt över optimeringsmodeller för dosplanering av HDR BT och speciellt hur optimeringsmodellerna hanterar de motstridiga målsättningarna.