Overview

Nanotube Superfiber Materials refers to different forms of macroscale materials with unique properties constructed from carbon nanotubes. These materials include nanotube arrays, ribbons, scrolls, yarn, braid, and sheets. Nanotube materials are in the early stage of development and this is the first dedicated book on the subject. Transitioning from molecules to materials is a breakthrough that will positively impact almost all industries and areas of society. Key properties of superfiber materials are high flexibility and fatigue resistance, high energy absorption, high strength, good electrical conductivity, high maximum current density, reduced skin and proximity effects, high thermal conductivity, lightweight, good field emission, piezoresistive, magnetoresistive, thermoelectric, and other properties. These properties will open up the door to dozens of applications including replacing copper wire for power conduction, EMI shielding, coax cable, carbon biofiber, bullet-proof vests, impact resistant glass, wearable antennas, biomedical microdevices, biosensors, self-sensing composites, supercapacitors, superinductors, hybrid superconductor, reinforced elastomers, nerve scaffolding, energy storage, and many others. The scope of the book covers three main areas: Part I: Processing; Part II: Properties; and Part III: Applications. Processing involves nanotube synthesis and macro scale material formation methods. Properties covers the mechanical, electrical, chemical and other properties of nanotubes and macroscale materials. Different approaches to growing high quality long nanotubes and spinning the nanotubes into yarn are explained in detail. The best ideas are collected from all around the world including commercial approaches. Applications of nanotube superfiber cover a huge field and provides a broad survey of uses. The book gives a broad overview starting from bioelectronics to carbon industrial machines.

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9781455778638

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Author Information

Mark J. Schulz is a Professor of Mechanical and Materials Engineering at the University of Cincinnati, and Co-director of the Nanoworld Laboratories at the University of Cincinnati. The strategic goal of the Nanoworld Labs is to solve societally important and complex problems, to integrate nanotech into university-wide curricula, to interest students to go to graduate school, and to develop new smart and nano materials and devices for engineering and medical use. Mark is a co-founder of two companies based on university technologies. Vesselin Shanov is a Professor of Chemical and Materials Engineering at the University of Cincinnati. He has received several prestigious awards including the Fulbright Award for Research and Teaching in the USA, and German Academic Foundation (DAAD) Grants. His recent research focuses on synthesis, characterization and processing of carbon nanotubes and graphene, with applications in the areas of energy storage, electronics and aerospace. He is a member of the Materials Research Society and co-founder and co-director of the teaching and research facility NANOWORLD Labs at the University of Cincinnati. Dr. Shanov has more than 300 scientific publications, including 16 patents, 12 provisional patents and 5 books, has been cited in about 3,100 different references. Zhangzhang (John) Yin is a Lead Chemist at Ecolab Inc. Previously he worked as the program manager at the NSF Engineering Research Center for Revolutionizing Metallic Biomaterials and Lab Manager in the Nanoworld Lab at the University of Cincinnati. Dr. Yin’s research interest includes corrosion, application of nanotechnology in medicine and water treatment. Dr. Yin received his B.S. from Tongji University and Ph.D. from the University of Cincinnati in Materials Engineering.

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