Organic Semiconducting Systems for Applications in Biomedical Engineering
Will be published approx. on 10. January 2027
Book
Paperback/Softback
450 pages
978-0-443-41779-5 (ISBN)
Description
Organic Semiconducting Systems for Applications in Biomedical Engineering explores the properties and applications of organic semiconductors, which are conjugated systems made from small organic molecules or polymers that exhibit semiconductor characteristics. These materials offer flexibility, lightweight construction, low cost, and large-area production capabilities. Their tunable electronic and optical properties, along with biocompatibility, such as biosensors, smart drug delivery systems, medical diagnostics, and implantable devices.
The book targets professionals and students in the fields of organic electronics, biomedical engineering, biomaterials, and environmental science. It provides a comprehensive understanding of organic conjugated systems and their principles, aiding readers in designing innovative solutions for challenges in medical sectors. Additionally, it delves into the latest research findings and practical applications of organic semiconductors, helping readers stay informed and identify new research opportunities. This book clarifies complex concepts, making it suitable for beginners. It also offers a forward-looking perspective on the potential of organic semiconductors to revolutionize biotechnology, inspiring readers to pursue research and innovation for sustainable development.
Overall, this book serves as an essential resource for understanding organic semiconductors in biotechnology, biomedical engineering, and bioelectronic applications.
The book targets professionals and students in the fields of organic electronics, biomedical engineering, biomaterials, and environmental science. It provides a comprehensive understanding of organic conjugated systems and their principles, aiding readers in designing innovative solutions for challenges in medical sectors. Additionally, it delves into the latest research findings and practical applications of organic semiconductors, helping readers stay informed and identify new research opportunities. This book clarifies complex concepts, making it suitable for beginners. It also offers a forward-looking perspective on the potential of organic semiconductors to revolutionize biotechnology, inspiring readers to pursue research and innovation for sustainable development.
Overall, this book serves as an essential resource for understanding organic semiconductors in biotechnology, biomedical engineering, and bioelectronic applications.
More details
Language
English
Place of publication
San Diego
United States
Publishing group
Elsevier Science Publishing Co Inc
Target group
Professional and scholarly
Dimensions
Height: 235 mm
Width: 191 mm
Weight
450 gr
ISBN-13
978-0-443-41779-5 (9780443417795)
Copyright in bibliographic data is held by Nielsen Book Services Limited or its licensors: all rights reserved.
Schweitzer Classification
Persons
Neha Rani Kumar is currently working as an Assistant Professor at Department of Chemistry, Dhemaji College, Dhemaji-Assam, India. She received her PhD (2014-2021) in Conjugated Organic Systems and their Applications from Indian Institute of Science Education and Research Kolkata, West Bengal. Her research interest encompasses conjugated organic systems and porous organic polymers and their applications in environmental remediation. She has authored several publications on porous organic polymers and their applications. She has also been the recipient of several conference and academic awards including S. S. Bhatnagar Young Scientist Award from Indian Chemical Society. She has co-edited a book on Research Methodology for undergraduate students and is currently working on editing a book on Azulene Based Systems: Design, Synthesis and Applications. She has also authored several book chapters published under Nova Science Publishers and Elsevier. Besides that she has been a reviewer of journals from Elsevier and Royal Society of Chemistry. She has guided 24 undergraduate students for their final dissertation project. Dr. Maulin P. Shah is a distinguished environmental scientist, academician, and globally recognized expert in the fields of environmental biotechnology and sustainable
wastewater treatment. He has made significant contributions to advancing eco-friendly
technologies for pollution control, particularly through innovative biological treatment processes. Dr. Shah holds extensive academic and research experience, with a strong focus on
industrial wastewater treatment, bioremediation, and microalgae-based technologies. His work emphasizes the integration of sustainability principles with practical engineering solutions, helping industries reduce their environmental footprint.
Remarkably, Dr. Shah has edited over 300+ books covering a wide spectrum of cutting-edge domains, including industrial wastewater microbiology, bioremediation, biodegradation, algal biotechnology, biofuel, bioenergy, circular economy, metagenomics related to wastewater treatment, and enzyme engineering. This exceptional editorial contribution reflects his deep expertise and unparalleled commitment to advancing global knowledge in environmental science.
Over the years, he has also authored and contributed to numerous high-impact
research papers and scholarly books published by reputed international publishers. His
publications are widely cited and serve as essential references for researchers, academicians, and industry professionals worldwide.
He is actively associated as an Editorial Board Member in more than 30 high-reputed
international journals affiliated with leading organizations and publishers such as
International Water Association, American Chemical Society, Royal Society of Chemistry,
Elsevier, Springer, Taylor & Francis, Wiley, IOP Publishing, Apple Academic Press,
Scrivener Publishing, and Bentham Science Publishers. His extensive editorial involvement
highlights his leadership and recognition in the global scientific community.
Dr. Shah is widely recognized for his collaborative research with leading scientists
across the globe, promoting interdisciplinary solutions to complex environmental challenges.
His work effectively bridges the gap between fundamental research and real-world industrial
applications. In addition to his research excellence, he has been invited as a keynote speaker at numerous national and international conferences, where he shares valuable insights on sustainable development, wastewater management, and environmental innovation. He is also deeply committed to mentoring students and young researchers, fostering academic growth and inspiring future leaders in environmental science and engineering.
Beyond academia, Dr. Shah contributes to industry-oriented solutions and policy-
relevant research aimed at environmental protection, resource recovery, and sustainable
development. Through his relentless dedication and visionary approach, Dr. Maulin P. Shah
has established himself as a leading authority in environmental sustainability, committed to
building a cleaner, greener, and more sustainable future.
wastewater treatment. He has made significant contributions to advancing eco-friendly
technologies for pollution control, particularly through innovative biological treatment processes. Dr. Shah holds extensive academic and research experience, with a strong focus on
industrial wastewater treatment, bioremediation, and microalgae-based technologies. His work emphasizes the integration of sustainability principles with practical engineering solutions, helping industries reduce their environmental footprint.
Remarkably, Dr. Shah has edited over 300+ books covering a wide spectrum of cutting-edge domains, including industrial wastewater microbiology, bioremediation, biodegradation, algal biotechnology, biofuel, bioenergy, circular economy, metagenomics related to wastewater treatment, and enzyme engineering. This exceptional editorial contribution reflects his deep expertise and unparalleled commitment to advancing global knowledge in environmental science.
Over the years, he has also authored and contributed to numerous high-impact
research papers and scholarly books published by reputed international publishers. His
publications are widely cited and serve as essential references for researchers, academicians, and industry professionals worldwide.
He is actively associated as an Editorial Board Member in more than 30 high-reputed
international journals affiliated with leading organizations and publishers such as
International Water Association, American Chemical Society, Royal Society of Chemistry,
Elsevier, Springer, Taylor & Francis, Wiley, IOP Publishing, Apple Academic Press,
Scrivener Publishing, and Bentham Science Publishers. His extensive editorial involvement
highlights his leadership and recognition in the global scientific community.
Dr. Shah is widely recognized for his collaborative research with leading scientists
across the globe, promoting interdisciplinary solutions to complex environmental challenges.
His work effectively bridges the gap between fundamental research and real-world industrial
applications. In addition to his research excellence, he has been invited as a keynote speaker at numerous national and international conferences, where he shares valuable insights on sustainable development, wastewater management, and environmental innovation. He is also deeply committed to mentoring students and young researchers, fostering academic growth and inspiring future leaders in environmental science and engineering.
Beyond academia, Dr. Shah contributes to industry-oriented solutions and policy-
relevant research aimed at environmental protection, resource recovery, and sustainable
development. Through his relentless dedication and visionary approach, Dr. Maulin P. Shah
has established himself as a leading authority in environmental sustainability, committed to
building a cleaner, greener, and more sustainable future.
Content
1. Why Organic Semiconducting Systems in Biotechnology?
2. Functionalization Techniques for Bio-Integrated Organic Semiconductors
3. Organic Semiconductors in Bio-sensing Technologies
4. Organic Semiconductors in Medical Diagnostics and Imaging and their Applications in Neural Interfaces
5. Organic Semiconductors for Drug Delivery Systems
6. Organic Bioelectronics: Interfaces with Biological Systems
7. Organic Semiconductors in Gene Therapy and Genetic Engineering
8. Advances in Microfluidics and Lab-on-a-Chip Devices Incorporating Organic
Semiconductors
9. Organic Semiconductors in Wearable and Implantable Biomedical Devices
10. Organic Semiconductors in Bioprocess Technology
11. Challenges and Limitations of Organic Semiconductors in Biotechnology/Biocompatibility, Toxicity and Regulatory Concerns of Organic Semiconductors in Biotechnology
12. Future Perspectives and Emerging Trends in Organic Semiconductors for Biotechnology
2. Functionalization Techniques for Bio-Integrated Organic Semiconductors
3. Organic Semiconductors in Bio-sensing Technologies
4. Organic Semiconductors in Medical Diagnostics and Imaging and their Applications in Neural Interfaces
5. Organic Semiconductors for Drug Delivery Systems
6. Organic Bioelectronics: Interfaces with Biological Systems
7. Organic Semiconductors in Gene Therapy and Genetic Engineering
8. Advances in Microfluidics and Lab-on-a-Chip Devices Incorporating Organic
Semiconductors
9. Organic Semiconductors in Wearable and Implantable Biomedical Devices
10. Organic Semiconductors in Bioprocess Technology
11. Challenges and Limitations of Organic Semiconductors in Biotechnology/Biocompatibility, Toxicity and Regulatory Concerns of Organic Semiconductors in Biotechnology
12. Future Perspectives and Emerging Trends in Organic Semiconductors for Biotechnology