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E-raamat: Handbook of Bioelectronics: Directly Interfacing Electronics and Biological Systems

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Edited by , Edited by (École Polytechnique Fédérale de Lausanne)
  • Formaat: EPUB+DRM
  • Ilmumisaeg: 06-Aug-2015
  • Kirjastus: Cambridge University Press
  • Keel: eng
  • ISBN-13: 9781316234341
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Handbook of Bioelectronics: Directly Interfacing Electronics and Biological SystemsSuurem pilt
  • Formaat: EPUB+DRM
  • Ilmumisaeg: 06-Aug-2015
  • Kirjastus: Cambridge University Press
  • Keel: eng
  • ISBN-13: 9781316234341
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A wide-ranging view of the state of the art in modern bioelectronics, with real-world examples, step-by-step design details, and hints and tips from the pioneers themselves. All aspects of modern bioelectronics are covered, providing an authoritative summary of the field and a perfect foundation for future developments in distributed diagnostic devices.

This wide-ranging summary of bioelectronics provides the state of the art in electronics integrated and interfaced with biological systems in one single book. It is a perfect reference for those involved in developing future distributed diagnostic devices, from smart bio-phones that will monitor our health status to new electronic devices serving our bodies and embedded in our clothes or under our skin. All chapters are written by pioneers and authorities in the key branches of bioelectronics and provide examples of real-word applications and step-by-step design details. Through expert guidance, you will learn how to design complex circuits whilst cutting design time and cost and avoiding mistakes, misunderstandings, and pitfalls. An exhaustive set of recently developed devices is also covered, providing the implementation details and inspiration for innovating new solutions and devices. This all-inclusive reference is ideal for researchers in electronics, bio/nanotechnology, and applied physics, as well as circuit and system-level designers in industry.

Arvustused

'This book, edited by outstanding scientists, will be a great addition to any library, as it provides a valuable source of information regarding bioelectronics-related topics. The topics provided are relevant and timely, and of broad interest for students as well as seasoned scientists.' Ali Khademhosseini, Harvard Medical School 'This work provides real-world applications and even step-by-step design details.' Venkat Subramaniam, Biz India

Muu info

A wide-ranging view of the state of the art in modern bioelectronics, with real-world examples, step-by-step design details, and insights from experts.
List of contributors ix
1 What is bioelectronics?
1(4)
Sandro Carrara
Part I Electronic Components 5(98)
2 Molecular components for electronics
7(4)
Sandro Carrara
3 Nanogaps and biomolecules
11(23)
Paolo Motto
Ismael Rattalino
Alessandro Sanginario
Valentina Cauda
Gianluca Piccinini
Danilo Demarchi
4 Organic thin-film transistors for biological applications
34(15)
Katharina Melzer
Giuseppe Scarpa
5 Protein-based transistors
49(17)
Andrea Alessandrini
Paolo Facci
6 Single-molecule bioelectronics
66(20)
Yongki Choi
Gregory A. Weiss
Philip G. Collins
7 Nanoscale biomemory device composed of recombinant protein variants
86(17)
Ajay Kumar Yagati
Junhong Min
Jeong Woo Choi
Part II Biosensors 103(92)
8 Introduction to biosensors
105(4)
Krzysztof Iniewski
9 CNT and proteins for bioelectronics in personalized medicine
109(13)
Andrea Cavallini
Cristina Boero
Giovanni De Micheli
Sandro Carrara
10 CMOS nanowire biosensing systems
122(15)
Monika Weber
Jason M. Criscione
Xuexin Duan
Tarek M. Fahmy
Jason Park
Nitin K Rajan
David A. Routenberg
Erin Steenblock
Eric Stern
Aleksandar Vacic
Mark A. Reed
11 Cell-array biosensors
137(18)
Michele Sessolo
Marc Ramuz
George G. Malliaras
Rosin M. Owens
12 System-on-a-chip pulse radar for contactless motion sensing in human-machine smart interfaces
155(15)
Domenico Zito
Domenico Pepe
13 MagCMOS
170(13)
Tiago Costa
Filipe A. Cardoso
Moises S. Piedade
Paulo P. Freitas
14 Metamorphic neural interfaces with insects for remote controlled biobots
183(12)
Alper Bozkurt
Part III Fuel Cells 195(44)
15 Biofuel cells
197(5)
Sandro Carrara
16 Advances and applications in biofuel cells
202(13)
Frank Davis
Seamus P.J. Higson
17 Switchable electrodes and biofuel cells logically controlled by chemical and biochemical signals
215(24)
Evgeny Katz
Part IV Biomimetic Systems 239(36)
18 Biontimetic systems
241(4)
Sandro Carrara
19 Epidermal electronics - flexible electronics for biomedical applications
245(11)
Ravinder S. Dahiya
20 Bioelectronics brain using memristive polymer statistical systems
256(10)
Victor Erokhin
21 Electronic modeling of synthetic genetic networks
266(9)
Alexandre Wagemakers
Alvar Daza
Miguel A.F. Sanjudn
Part V Bionics 275(64)
22 Introduction to bionics
277(4)
Krzysztof Iniewski
23 Bioelectronic interfaces for artificially driven human movements
281(13)
Kevin A. Mazurek
Ralph Etienne-Cummings
24 The Bionic Eye: a review of multielectrode arrays
294(19)
Kate Fox
Owen Burns
David J. Garrett
Mohit N. Shivdasani
Hamish Meffin
25 CMOS technologies for retinal prosthesis
313(12)
Jun Ohta
Takashi Tokuda
Takashi Fujikado
26 Photovoltaic retinal prosthesis for restoring sight to the blind
325(14)
Daniel Palanker
Yossi Mandel
Keith Mathieson
James Loudin
Georges Goetz
Philip Huie
Lele Wang
Theodore Kamins
Richard Smith
James S. Harris
Alexander Sher
Part VI Brain Interfaces 339(84)
27 Introduction to brain-machine interfaces
341(3)
Krzysztof Iniewski
28 ECG technology for the brain-machine interface
344(8)
Ajay Bharadwaj
29 Reducing the implant footprint: low-area neural recording
352(13)
Rikky Muller
Simone Gambini
Jan M. Rabaey
30 Electrical stimulation
365(14)
Sudip Nag
Dinesh Sharma
Nitish V. Thakor
31 Biological channel modeling and implantable UWB antenna design for neural recording systems
379(10)
Hadi Bahrami
Leslie A. Rusch
Benoit Gosselin
32 Intracranial epilepsy monitoring using wireless neural recording systems
389(11)
Giirkan Yilmaz
Catherine Dehollain
33 Low-power building blocks for neural recording systems
400(14)
Mohamed Elzeftawi
Luke Theogarajan
34 CMOS circuits for intracellular brain-machine interfaces
414(9)
Amine Miled
Mohamad Sawan
Part VII Lab-On-A-Chip 423(84)
35 Lab-on-a-chip
425(5)
Sandro Carrara
36 CMOS spectrally multiplexed FRET contact imaging microsystem for DNA analysis
430(18)
Derek Ho
M. Omair Noor
Ulrich J. Krull
Glenn Gulak
Roman Genov
37 CMOS electrochemical biosensors: instrumentation and integration
448(21)
Xiaowen Liu
Lin Li
Andrew J. Mason
38 Adaptive and reconfiguration-based error recovery in cyberphysical biochips
469(20)
Krishnendu Chakrabarty
Yan Luo
Kai Hu
39 CMOS-based biomolecular sensor system-on-chip
489(18)
Pei-Wen Yen
Chih-Ting Lin
Part VIII Future Perspectives 507(62)
40 Future perspectives in bioelectronics
509(4)
Sandro Carrara
41 Real-time activity energy expenditure estimation for embedded ambulatory systems using Sensiune' technologies
513(30)
Su-Shin Ang
Ksawery Wieczorkowski-Rettinger
Miguel Hernandez-Silveira
42 Electronic systems for health management
543(7)
Giovanni De Micheli
43 Linking the cyber and biological worlds: the Ensemble is the Function
550(15)
Daniela De Venuto
Alberto Sangiovanni-Vincentelli
44 Conclusion: Personal electronics and distributed theranostics
565(4)
Sandro Carrara
Index 569
Sandro Carrara is a Lecturer and Senior Scientist at the EPFL in Lausanne, Switzerland. He is former Professor of Optical and Microelectronics Biosensors in the Department of Electrical Engineering and Biophysics at the University of Genoa, Italy. He is Founder and Editor-in-Chief of the journal BioNanoScience, Topical Editor of the IEEE Sensors Journal, and Associate Editor of IEEE Transactions on Biomedical Circuits and Systems. Krzysztof Iniewseki is R&D Manager at Redlen Technologies Inc., a start-up company in Vancouver, Canada. He is also an Executive Director of CMOS Emerging Technologies, Inc. In his career, he has held numerous faculty and management positions at the University of Toronto, the University of Alberta, Simon Fraser University, and PMC-Sierra Inc.
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