A new release from Bentham Science Publishers gives groundbreaking insights into the transformative role of nanotechnology at the intersection of medicine and environmental science.
Authored by experts in biotechnology, nanoscience, and environmental research, Nanomaterials in Biological Milieu: Biomedical Applications and Environmental Sustainability provides a comprehensive overview of how engineered nanomaterials interact with biological systems and drive real-world breakthroughs.
Spanning topics such as green nanomaterial synthesis, targeted drug delivery, cancer therapy, and regenerative medicine, the book explores critical applications in sustainable technologies ranging from bioremediation to heavy metal adsorption using lignin-based nanoparticles. This volume presents a future-forward perspective on science with chapters on the integration of AI, epigenetic nanotechnology, and the use of nanotech in stem cell research
From tackling complex diseases to addressing ecological challenges, the book illustrates how nanotechnology is reshaping our approach to global health and sustainability. It serves as a vital resource for researchers, scholars, and professionals looking to understand and harness the potential of nanomaterials in the 21st century.
Discover more about the book here: http://bit.ly/3GR7kwy
For review copies, interviews, or media inquiries, please contact Bentham Science Publishers.
About the Editors:
Manoranjan Arakha is Assistant Professor at the Centre for Biotechnology, Siksha ‘O’ Anusandhan (Deemed-to-be-University), Bhubaneswar, India. With a PhD in Life Sciences and postdoctoral experience from University College Dublin, Ireland, he has authored over 38 peer-reviewed articles and 4 books, focusing on nano-bio interactions and biomedical nanotechnology.
Arun Kumar Pradhan is Assistant Professor at the Centre for Biotechnology, School of Pharmaceutical Sciences, Siksha ‘O’ Anusandhan. Holding a PhD in Environment & Sustainability, his research covers microbial biosurfactants, green nanoparticle synthesis, and their applications in cancer therapy and environmental monitoring.