Introduction to Journals & Books
Recent Progress in Materials (ISSN 2689-5846) is an international peer-reviewed open access journal published quarterly online by LIDSEN Publishing Inc. This periodical is devoted to publishing high-quality papers that describe the most significant and cutting-edge research in all areas of Materials. Its aim is to provide timely, authoritative introductions to current thinking, developments and research in carefully selected topics. Also, it aims to enhance the international exchange of scientific activities in materials science and technology.
Recent Progress in Materials publishes original high quality experimental and theoretical papers and reviews on basic and applied research in the field of materials science and engineering, with focus on synthesis, processing, constitution, and properties of all classes of materials. Particular emphasis is placed on microstructural design, phase relations, computational thermodynamics, and kinetics at the nano to macro scale. Contributions may also focus on progress in advanced characterization techniques.
Main research areas include (but are not limited to):
- Characterization & Evaluation of Materials
- Metallic materials
- Inorganic nonmetallic materials
- Composite materials
- Polymer Materials
- Sustainable Materials and Technologies
- Special types of Materials
- Macro-, micro- and nano structure of materials
- Environmental interactions, process modeling
- Novel applications of materials
Journal of Modern Nanotechnology (JMN, ISSN 2788-8118), published by the Innovation Forever Publishing Group Limited, is an open access, peer-reviewed, online journal striving to provide an academic exchange platform online for researchers and readers in the fields of Nanoscience & Nanotechnology.
JMN’s intended readership includes researchers, scientists, and policy-makers, who are committed to the exploration of advanced nanoscience and the application of emerging nanotechnologies, as well as a wider community of readers (policy makers, scholars, science writers and students) interested in nanostructured materials, nanosystems, and nanodevices.
Types of Articles
JMN publishes the following article types:
- Research articles
- Short communication
- Nanostructured Materials: Synthesis and Self-Assembly
- Nanotubes and Nanoporous Materials: Characterization and Functionalization
- Polymeric Nanoparticles, Organic-Inorganic Nanocomposites and Biohybrids
- Design of Structural and Functional Nanomaterials
- Nanosystems Applications for Biology, Catalysis, Medicine, Energy and Environment
- Nanodevices Applications for Microelectronics, Semiconductor, Imaging, Medical Diagnosis and Sensor
The aim of Current Drug Delivery is to publish peer-reviewed articles, short communications, short and in-depth reviews in the rapidly developing field of drug delivery. Modern drug research aims to build in delivery properties of a drug at the design phase, however in many cases this ideal cannot be met and the development of delivery systems becomes as important as the development as the drugs themselves.
The journal aims to cover the latest outstanding developments in drug and vaccine delivery employing physical, physico-chemical and chemical methods. The drugs include a wide range of bioactive compounds from simple pharmaceuticals to peptides, proteins, nucleotides, nucleosides and sugars. The journal will also report progress in the fields of transport routes and mechanisms including efflux proteins and multi-drug resistance.
The journal is essential for all pharmaceutical scientists involved in drug design, development and delivery.
Publisher: Bentham Science Publishers
An exploration of materials processing and engineering technology across a wide range of medical applications.The field of biomedical engineering has played a vital role in the progression of medical development technology. Biomedical Engineering: Materials, Technology, and Applications covers key aspects of the field—from basic concepts to advanced level research for medical applications. The book stands as a source of inspiration for research on materials as well as their development and practical application within specialized industries. It begins with a discussion of what biomedical engineering is and concludes with a final chapter on the advancements of biomaterials technology in medicine.
- Offers comprehensive coverage of topics, including biomaterials, tissue engineering, bioreceptor interactions, and various medical applications.
- Discusses applications in critical industries such as biomedical diagnosis, pharmaceutics, drug delivery, cancer detection, and more.
- Serves as a reference for those in scientific, medical, and academic fields.
Biomedical Engineering takes an interdisciplinary look at how biomedical science and engineering technology are integral to developing novel approaches to major problems, such as those associated with disease diagnosis and drug delivery. By covering a full range of materials processing and technology-related subjects, it shares timely information for biotechnologists, material scientists, biophysicists, chemists, bioengineers, nanotechnologists, and medical researchers.
A comprehensive and multidisciplinary review of the fundamental concepts and medical applications of nanomaterials development technology. Nanomedicine offers a range of multi-interdisciplinary approaches and brings together the field of chemistry, pharmaceutical science, biology, and clinical medicines by focusing on design and preparation of biodegradable or non-biodegradable biomaterials for their biological, medical, and pharmaceutical applications. Nanomaterials in Advanced Medicine reviews the concepts and applications of the combination of the technology of biology and engineering that are emerging as an integral aspect of today?s advanced medicine. Nanomedicine provides the technology for imaging, cancer treatment, medical tools, bone treatment, drug delivery, diagnostic tests, drug development, angiogenesis and aims to exploit the improved and often novel physical, chemical, and biological properties of materials at the nanometer scale. Designed to provide a broad survey of the field, Nanomaterials in Advanced Medicine is divided into three main sections: Nanophysics, Nanochemistry, and Nanomedicine. Each chapter describes in detail the most current and valuable methods available and contains numerous references to the primary literature. This important book:
- Offers a field guide for biologists and physicians who want to explore the fascinating world of nanotechnology.
- Contains a comprehensive review of the topic from a noted expert in the field.
- Includes an introduction to nanotechnology and explores the synthesis, structure and properties of various types of nanobiomaterials.
- Bridges the gap between various aspects of nanomaterials? development technology and their applications.
Written for pharmaceutical chemists, biotechnologists, life scientists, materials scientists, polymer chemists, and biochemists, Nanomaterials in Advanced Medicine provides a must-have guide to the fundamental concepts and current applications of nanomaterials in the medical field.
Nanoscience is a part of science that studies small stuff, it’s not biology, physics or chemistry, it’s all sciences that work with the very small.
Nanotechnology is the art and science of making useful stuff that does stuff on the nanometer length scale and includes advances in all industries, including the electronic, chemical, medical, and pharmaceutical. Nanomedicine is the medical application of nanotechnology and related research which is innovative technology of materials science and biology. Designed as a broad survey of the field, this book is divided into three main sections:
Each chapter describes in detail currently valuable methods and contains numerous references to the primary literature, making this the perfect “filed guide” for biologists and physicians who want to explore the fascinating world of nanotechnology.
Biomedical engineering is the key technology of the 21st century. The possibility to exploit the structures and process of advanced materials for novel functional materials, biosensors, stem cells technology, regenerative medicine, drug delivery systems has created the rapidly growing field of biomaterials technology. Designed as a broad survey of the field, this book combines contributions from molecular biology, materials science and medicine to fathom the full scope of current and future developments.It is divided into four main sections:
- Interface systems
- Physiochemical properties
- Structures of biomaterials
- Medical applications
Each chapter describes in detail currently valuable methods and contains numerous references to the primary literature, making this the perfect “filed guide” for chemists, biologists and physicians who want to explore the fascinating world of biomedical engineering.
Donglu Shi, Hongjun Wang, Hossein Hosseinkhani – 28 April 2016
This two-part multivolume set provides a comprehensive overview of current achievements in biomedical applications of nanotechnology, including stem cell based regenerative medicine, medical imaging, cell targeting, drug delivery, and photothermal/photodynamic cancer therapy. New approaches in early cancer diagnosis and treatment are introduced with extensive experimental results. In particular, some novel materials have been synthesized with new properties that are most effective in cancer therapy. Some of the key issues are also addressed with these recent discoveries such as bio safety and bio degradability, that are essential in the success of nano medicine.
An important aspect of this book set is the introduction of nanotechnology to the medical communities that are searching for new treatments of cancer. It may also break the barriers between the physical and medical sciences so that more MDs will be able to appreciate the new discoveries and establishments in medical diagnosis and therapy that will allow the effective handling of major clinical issues.This major reference publication will be important as the field of nanomedicine has been rapidly developing with a great deal of new information. It is anticipated that the research will soon advance into the pre-clinical stage. Therefore, this reference set can serve as valuable background information for future clinical studies.