Graphene Based Biomolecular Electronic Devices
- 1st Edition - January 24, 2023
- Imprint: Elsevier
- Authors: Bansi D. Malhotra, Sharda Nara
- Language: English
- Paperback ISBN:9 7 8 - 0 - 1 2 - 8 2 1 5 4 1 - 8
- eBook ISBN:9 7 8 - 0 - 1 2 - 8 2 1 5 4 2 - 5
Graphene Based Biomolecular Electronic Devices outlines the fundamental concepts related to graphene and electronics, along with a description of various advanced and emerging… Read more
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Request a sales quoteGraphene Based Biomolecular Electronic Devices outlines the fundamental concepts related to graphene and electronics, along with a description of various advanced and emerging applications of graphene-based bioelectronics. The book includes coverage of biosensors, energy storage devices such as biofuel cells, stretchable and flexible electronics, drug delivery systems, tissue engineering, and 3D printed graphene in bioelectronics. Taking an interdisciplinary approach, it explores the synergy produced due to charge transfer between biomolecules and graphene and will help the reader understand the promising bioelectronic applications of graphene-based devices.
Graphene has applications in semiconductor electronics, replacing the use of traditional silicon-based devices due to its semi-metallic nature and tuneable energy band gap properties. The tuning of electron transfer with redox properties of biomolecules could potentially lead to the development of miniaturized bioelectronic devices. Thus, graphene, with its unique sensing characteristics, has emerged as an attractive material to produce biomolecular electronic devices.
- Explains advanced and emerging techniques for creating graphene-based bioelectronic devices
- Outlines the fundamental concepts of graphene-based bio-integrated systems
- Addresses the major challenges in creating graphene-based bioelectronic devices on a mass scale
Materials scientists and engineers
- Cover image
- Title page
- Table of Contents
- Copyright
- Preface
- 1: Graphene-Fundamentals
- Abstract
- 1.1: Introduction
- 1.2: History of graphene
- 1.3: Graphene synthesis
- 1.4: Morphologies of graphene
- 1.5: Electronic properties of graphene
- 1.6: Graphene-biomolecular interactions
- 1.7: Graphene-based hybrid biomaterials
- 1.8: Conclusions
- References
- 2: Graphene-Based Transduction Systems in Biosensors
- Abstract
- 2.1: Introduction
- 2.2: Graphene-based transduction systems
- 2.3: Conclusions
- References
- 3: Graphene in Field Effect Transistor-Based Biosensors
- Abstract
- 3.1: Introduction
- 3.2: Graphene Bio-FET
- 3.3: Bio-FET-based label-free detection mechanism
- 3.4: Challenges of using graphene in fabrication of FET-based sensing devices
- References
- 4: Graphene-Based Biosensors for Detection of Protein and Nucleic Acid
- Abstract
- 4.1: Introduction
- 4.2: Graphene-based biosensors for nucleic acid detection
- 4.3: Graphene-based biosensors for protein detection
- 4.4: Advanced applications of graphene-based biosensors
- 4.5: Protocols
- 4.6: Conclusions
- References
- 5: Graphene-Based Wearable Biosensors
- Abstract
- 5.1: Introduction
- 5.2: Graphene-based flexible and stretchable materials
- 5.3: Applications of wearable biosensors
- 5.4: Challenges and future prospectus
- 5.5: Conclusions
- References
- 6: Graphene 3D Printing
- Abstract
- 6.1: Introduction
- 6.2: Direct 3D printing
- 6.3: 3D freeze printing
- 6.4: Digital light processing 3D printing
- 6.5: Stereolithography
- 6.6: Fused deposition technique
- 6.7: Conclusions
- References
- 7: Graphene-Based Microbial Fuel Cell
- Abstract
- 7.1: Introduction
- 7.2: Modified graphene as electrode material
- 7.3: Synthesis of graphene used for electrode material
- 7.4: MFC designing using graphene-based materials
- 7.5: Graphene as an anode material
- 7.6: Graphene as a cathode material
- 7.7: MFC-based bioelectronic devices
- 7.8: Conclusions
- References
- 8: Graphene-Based Drug Delivery System
- Abstract
- 8.1: Introduction
- 8.2: Graphene-based drug delivery nano-vehicles
- 8.3: Graphene interaction with cell membrane
- 8.4: Impact of graphene on a human body
- 8.5: Conclusions
- References
- 9: Graphene in Tissue Engineering and Electronics: Future Prospects and Challenges
- Abstract
- 9.1: Introduction
- 9.2: Fabrication of conductive scaffolds
- 9.3: Molecular interactions in biopolymers and graphene
- 9.4: Cellular behaviour on conductive scaffolds
- 9.5: Scaffold as an electronic sensor
- 9.6: Challenges
- 9.7: Protocols
- References
- 10: Commercial Prospects of Graphene-Based Biomolecular Electronic Devices and Challenges
- Abstract
- 10.1: Introduction
- 10.2: Graphene-based electronic devices
- 10.3: Graphene-based biosensors
- 10.4: Graphene-based biofuel cells
- 10.5: Future challenges
- 10.6: Conclusions
- References
- Index
- Edition: 1
- Published: January 24, 2023
- No. of pages (Paperback): 262
- No. of pages (eBook): 262
- Imprint: Elsevier
- Language: English
- Paperback ISBN: 9780128215418
- eBook ISBN: 9780128215425
BM
Bansi D. Malhotra
Bansi Malhotra is a former Professor & Ex-Head, Department of Biotechnoloy, Delhi Technological University, where he established a nanobioelectronics laboratory. He was formally Visiting Professor at the Centre for Nano-Bioengineering & Spintronics, Chungnam National University, South Korea, between 2009 and 2013, and is former Chief Scientist at CSIR-National Physical Laboratory, India. He served as President of the Biosensors Society of India and sits on the advisory boards of numerous international journals. He has previously published three books, and contributed over 340 articles in peer-reviewed journals.
Affiliations and expertise
Ex-Professor and Head, Nanobioelectronics Laboratory, Department of Biotechnology, Delhi Technological University, Delhi Technological University, IndiaSN
Sharda Nara
Sharda Nara is a Post-Doctoral Research Fellow working on the development of nanomaterials-based highly efficient biofuel cells. She works with Prof. Bansi Malhotra at Delhi Technological University, Delhi, India
Affiliations and expertise
Post-Doctoral Research Fellow, Nanobioelectronics Laboratory, Department of Biotechnology, Delhi Technological University, Delhi, IndiaRead Graphene Based Biomolecular Electronic Devices on ScienceDirect