Back to Journals » International Journal of Nanomedicine » Unveiling the Potential of Nanobiomaterials: Pioneering Insights into Biomedical Engineering
International Journal of Nanomedicine
ISSN: 1178-2013
- View all (7612)
- Volume 19, 2024 (271)
- Volume 18, 2023 (475)
- Volume 17, 2022 (440)
- Volume 16, 2021 (538)
- Volume 15, 2020 (705)
- Volume 14, 2019 (710)
- Volume 13, 2018 (625)
- Volume 12, 2017 (634)
- Volume 11, 2016 (499)
- Volume 10, 2015 (598)
- Volume 9, 2014 (508)
- Volume 8, 2013 (413)
- Volume 7, 2012 (518)
- Volume 6, 2011 (337)
- Volume 5, 2010 (115)
- Volume 4, 2009 (33)
- Volume 3, 2008 (52)
- Volume 2, 2007 (81)
- Volume 1, 2006 (60)
Journal Articles:
- Nanoparticle Applications in Brain Disorders: Gene Therapy and Enzyme Replacement Therapy (4)
- Surfactants in Nanomedicine: Enhancing Efficacy and Potential Applications (1)
- Plant-based Nanoparticles for Advanced Medical Applications: Current Trends and Future Prospects (11)
- Nanomedicine for Cancer Immunotherapy (5)
- Design, Development, and Translational Science of Inhaled Nanomedicines for Pulmonary, Nasal, and Nose-to-Brain Delivery (2)
- WIBE Thematic Series (7)
- Advanced Nanomedicine: Scrutiny on Unresolved Nanomedicine (6)
- Volume 13 - T-NANO 2014 Abstracts (30)
- Volume 10 - Special Issue on diverse applications in Nano-Theranostics (28)
- Volume 10 - Supplement 1 Challenges in biomaterials research (23)
- Volume 9 - Supplement 2 (26)
- Volume 9 - Supplement 1 (12)
- Volume 8 - Supplement 1 Nanoinformatics (8)
Unveiling the Potential of Nanobiomaterials: Pioneering Insights into Biomedical Engineering
Nanobiomaterials (NBMs) are a class of materials that combine the principles of nanotechnology and biomaterials to create innovative solutions for various biomedical applications. They are designed and engineered at the nanoscale level, which typically involves working with materials and structures that range from 1 to 100 nanometers in size. The field of NBMs has gained significant attention in recent years due to its potential to revolutionize medicine and healthcare. NBMs have unique properties and interactions at the nanoscale that make them suitable for a wide range of applications in biology, medicine, and medical devices. This Article Collection collects research devoted to the interaction between NBMs and tissue/cell, the effect of size, morphology, shape, and surface of NBMs on their toxicity, biocompatibility, immunogenicity, design of novel biodegradable and biocompatible NBMs, instrumentation, and technologies to analyze biocompatibility of NBMs and challenges to overcome the toxicity of NBMs.