Handbook of Graphene, Volume 6: Biosensors and Advanced Sensors by Barbara Palys

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The sixth volume in a series of handbooks on graphene research and applicationsThe Handbook of Graphene, Volume 6: Biosensors and Advanced Sensors discusses the unique benefits that the discovery of graphene has brought to the sensing and biosensing sectors. It examines graphene's use in leading-edge technology applications and the development of a variety of graphene-based sensors. The handbook looks at how graphene can be used as an electrode, substrate, or transducer in sensor design. Graphene-based sensor detection has achieved up to femto-levels, with performances delivering the advantages of greater selectivity, sensitivity, and stability.

FORMATHardcover LANGUAGEEnglish CONDITIONBrand New Back Cover

This unique multidisciplinary 8-volume set focuses on the emerging issues concerning graphene materials and provides a shared platform for both researcher and industry. Since the pioneering work of Geim and Novoselov, numerous articles have been published on the physicochemical properties of graphene. Methods for synthesizing graphene in large quantities are still a subject of extensive research. The search for novel applications of graphene has also received a great deal of attention. The high conductivity, large surface-area-to-volume ratio, and fascinating optical properties combined with excellent biocompatibility make graphene a remarkable candidate for application in biosensors. Related materials like graphene oxide (GO) and reduced graphene oxide (RGO) are receiving increasing interest due to the abundance of surface groups, which can be utilized for the attachment of biospecies. Thanks to the chemical flexibility of the physical properties of these groups, like hydrophobicity or fluorescence of RGO, materials can be tuned to obtain optimal values for biosensor applications. All the properties of graphene, GO, and RGO are described in this book, which addresses many aspects relevant to the design of biosensors for application in a variety of fields ranging from clinical testing, environmental monitoring, and agriculture, to food analysis and quality control. This volume 6 of Handbook of Graphene is devoted to Biosensors and Advanced Sensors . It comprises 26 chapters from internationally recognized researchers. Some of the important topics include but not limited to: Graphene for electrochemical biosensors applications in biomedical, agro-defense, pesticides; reduced graphene oxide for biosensing and electrocatalytic applications; electrochemical biosensor-based on green synthesized graphene and graphene nanocomposites; graphene-based nanomaterials; graphene-based fiber optic label-free biosensor; label-free biosensors based on graphene; graphene molecules as platforms for sers detection; graphene-based electrochemical aptasensors; self-organized 3D graphene as a robust sensing platform; interactions of molecular species with graphene and graphene sensing; self-assembled thin films of graphene materials for sensors; graphene and graphene nanocomposite-based electrochemical sensors; controlling the electromagnetic and electrochemical sensing properties of graphenes via heteroatom doping; finite element analysis of graphene materials; quantitative real-time evaluation of c/o ratios and stepwise control of deoxidization of graphene oxide using plasmonic-based electrochemical spectroscopy. Audience This book is intended for researchers and graduate students in the field of advanced materials and graphene in particular, who are currently investigating the fundamental properties of this material and its applications in micro- and nanotechnologies.

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This unique multidisciplinary 8-volume set focuses on the emerging issues concerning graphene materials and provides a shared platform for both researcher and industry. Since the pioneering work of Geim and Novoselov, numerous articles have been published on the physicochemical properties of graphene. Methods for synthesizing graphene in large quantities are still a subject of extensive research. The search for novel applications of graphene has also received a great deal of attention. The high conductivity, large surface-area-to-volume ratio, and fascinating optical properties combined with excellent biocompatibility make graphene a remarkable candidate for application in biosensors. Related materials like graphene oxide (GO) and reduced graphene oxide (RGO) are receiving increasing interest due to the abundance of surface groups, which can be utilized for the attachment of biospecies. Thanks to the chemical flexibility of the physical properties of these groups, like hydrophobicity or fluorescence of RGO, materials can be tuned to obtain optimal values for biosensor applications. All the properties of graphene, GO, and RGO are described in this book, which addresses many aspects relevant to the design of biosensors for application in a variety of fields ranging from clinical testing, environmental monitoring, and agriculture, to food analysis and quality control. This volume 6 of Handbook of Graphene is devoted to Biosensors and Advanced Sensors . It comprises 26 chapters from internationally recognized researchers. Some of the important topics include but not limited to: Graphene for electrochemical biosensors applications in biomedical, agro-defense, pesticides; reduced graphene oxide for biosensing and electrocatalytic applications; electrochemical biosensor-based on green synthesized graphene and graphene nanocomposites; graphene-based nanomaterials; graphene-based fiber optic label-free biosensor; label-free biosensors based on graphene; graphene molecules as platforms for sers detection; graphene-based electrochemical aptasensors; self-organized 3D graphene as a robust sensing platform; interactions of molecular species with graphene and graphene sensing; self-assembled thin films of graphene materials for sensors; graphene and graphene nanocomposite-based electrochemical sensors; controlling the electromagnetic and electrochemical sensing properties of graphenes via heteroatom doping; finite element analysis of graphene materials; quantitative real-time evaluation of c/o ratios and stepwise control of deoxidization of graphene oxide using plasmonic-based electrochemical spectroscopy. Audience This book is intended for researchers and graduate students in the field of advanced materials and graphene in particular, who are currently investigating the fundamental properties of this material and its applications in micro- and nanotechnologies.

Author Biography

Barbara Palys received her PhD (1993) from University of Twente, the Netherlands and DSc (2008) from University of Warsaw, Poland. She is currently professor at the Faculty of Chemistry at the University of Warsaw and leader of the group "Materials for Biosensors" at the Biological and Chemical Research Centre of University of Warsaw. Her research interests include design and studies of surfaces, materials and nanostructures that can be used as matrices for deposition of enzymes; electrocatalytic properties of hybrid materials comprising graphene oxide, nanostructures of conductive polymers, supramolecular polymeric gels and metallic nanostructures as well as SERS applications of graphene oxide. She has authored more than 70 publications cited over 1300 times (H-factor =21).

Table of Contents

Preface xvii Section 1: Biosensors 1 1 Graphene-Based Biosensors: Fundamental Concepts, Outline of Utility, and Future Scopes 3Soumya Kar and Prashant K. Sarswat 2 Graphene for Electrochemical Biosensors in Biomedical Applications 15Haiyun Liu and Jinghua Yu 3 Graphene-Based Biosensors in Agro-Defense: Food Safety and Animal Health Diagnosis 29Rohit Chand, Satish K. Tuteja and Suresh Neethirajan 4 Trends and Frontiers in Graphene-Based (Bio)sensors for Pesticides Electroanalysis 59Camila P. Sousa, Francisco W. P. Ribeiro, Thiago M. B. F. Oliveira, Adriana N. Correia, Pedro de Lima-Neto and Simone Morais 5 Graphene-Based Biosensors: Design, Construction, and Validation. Toward a Nanotechnological Tool for the Rapid in-Field Detection of Food Toxicants and Environmental Pollutants 99Christina G. Siontorou, Georgia-Paraskevi Nikoleli, Dimitrios P. Nikolelis, Stephanos Karapetis and Marianna-Thalia Nikolelis 6 Application of Porous Graphene in Electrochemical Sensors and Biosensors 117Xiangjie Bo and Liping Guo 7 Reduced Graphene Oxide for Biosensing and Electrocatalytic Applications 143Anna Jablonska, Sylwia Berbec, Agnieszka Swietlikowska, Mateusz Kasztelan and Barbara Palys 8 Recent Progress in the Graphene-Based Electrochemical Biosensors Development 181Elzbieta Regulska and Joanna Breczko 9 Electrochemical Biosensors Based on Green Synthesized Graphene and Graphene Nanocomposites 233Mahmoud Amouzadeh Tabrizi and Lluis F. Marsal 10 Recent Biosensing Applications of Graphene-Based Nanomaterials 297Kavita Arora 11 Graphene-Based Sensors: Applications in Electrochemical (Bio)sensing 349Claudia A. Razzino, Livia F. Sgobbi, Fernanda R. Marciano and Anderson O. Lobo 12 Graphene-Based Fiber Optic Label-Free Biosensor 371Xianfeng Chen, Jianlong Zhao and Lin Zhang 13 Label-Free Biosensors Based on Graphene: State-of-the-Art 397Seyed Morteza Naghib and Sadegh Ghorbanzade Section 2: Advanced Sensors 429 14 Graphene Molecules as Platforms for SERS Detection: A Future Perspective 431Nicolás Ramos-Berdullas, Nicolás Otero and Marcos Mandado 15 Graphene-Based Electrochemical Aptasensors 465V. Cengiz Ozalp, Göktug Karabiyik, A. Tahir Bayrac, Samet Ucak and Bilge G. Tuna 16 Self-Organized 3D Graphene as a Robust Sensing Platform 483F. Bourquard, C. Donnet, F. Garrelie, A.-S. Loir, F. Vocanson, V. Barnier, C. Chaix, C. Farre, N. Jaffrezic-Renault, F. Lagarde and G. Raimondi 17 Interactions of Molecular Species with Graphene and Graphene Sensing 509Simin Feng, Ruitao Lv, Mauricio Terrones and Maria Cristina dos Santos 18 Graphene-Based Nanocomposite Materials for the Design of Electrochemical Sensors and Their Applications 535Qinglin Sheng, Xiujuan Qiao, Ming Zhou, Tianli Yue and Jianbin Zheng 19 Self-Assembled Thin Films of Graphene Materials for Sensors 569Celina M. Miyazaki, Cristiane M. Daikuzono and Marystela Ferreira 20 Electrochemically Reduced Graphene Oxide: A Smart Material for Electrochemical Sensing 603Sheetal K. Kaushik and Tinku Basu 21 Graphene and Graphene Nanocomposite-Based Electrochemical Sensors 631Mihaela Tertis, Luminita Fritea, Robert Sandulescu and Cecilia Cristea 22 Controlling the Electromagnetic and Electrochemical Sensing Properties of Graphenes via Heteroatom Doping 663Faisal Shahzad and Chong Min Koo 23 Graphene and Graphene Composites-Modified Electrodes Surfaces for Selective Sensing of Dopamine in the Presence of Ascorbic Acid and Uric Acid 683Nadeem Baig and Abdel-Nasser Kawde 24 Finite Element Analysis of Graphene Materials 707Androniki S. Tsiamaki, Dimitrios E. Katsareas and Nick K. Anifantis 25 Quantitative Real-Time Evaluation of C/O Ratios and Stepwise Control of Deoxidization of Graphene Oxide Using Plasmonic-Based Electrochemical Spectroscopy 731Nan-Fu Chiu, Chun-Chuan Kuo, Cheng-Du Yang and Chi-Chu Chen 26 Electronic Transport upon Adsorption of Biomolecules on Graphene 767S.J. Rodríguez, L. Makinistian and E.A. Albanesi Acknowledgments 788 References 788 Index 793

Details ISBN1119469740 Publisher John Wiley & Sons Inc Year 2019 ISBN-10 1119469740 ISBN-13 9781119469742 Format Hardcover Pages 828 Place of Publication New York Country of Publication United States Subtitle Biosensors and Advanced Sensors Edited by Barbara Palys Language English DEWEY 620.115 Short Title Handbook of Graphene, Volume 6 Publication Date 2019-06-28 UK Release Date 2019-06-28 AU Release Date 1900-01-01 NZ Release Date 1900-01-01 Author Barbara Palys Imprint Wiley-Scrivener Audience Professional & Vocational US Release Date 2019-06-28 We've got this

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