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Carbon Nanomaterials for Biomedical Applications

  • Book
  • © 2016

Overview

Editors:
  1. Mei Zhang

    1. Department of Biomedical Engineering, Case Western Reserve University, Cleveland, USA

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  2. Rajesh R. Naik

    1. Soft Matter Materials Branch, Air Force Research Laboratory, Dayton, USA

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    You can also search for this editor in PubMed   Google Scholar

  3. Liming Dai

    1. Department of Macromolecular Science, Case Western Reserve University, Cleveland, USA

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    You can also search for this editor in PubMed   Google Scholar

  • Covers the latest developments in carbon nanomaterials for biomedical applications
  • Features a systematic approach from materials synthesis and functionalization to biomedical applications
  • Includes in-depth discussions and extensive reference lists for each topic
  • Allows materials researchers to understand the clinical targets and other requirements for biomedical applications of carbon nanomaterials
  • Offers insight into the optimization of properties by functionalization of carbon nanomaterials for specific applications
  • Provides balanced and comprehensive coverage from leading experts throughout the world
  • Includes supplementary material: sn.pub/extras

Part of the book series: Springer Series in Biomaterials Science and Engineering (SSBSE, volume 5)

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Table of contents (18 chapters)

  1. Front Matter

    Pages i-xi
    Download chapter PDF

  2. Carbon Nanomaterials for Biomedical Applications

    1. Front Matter

      Pages 1-1
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    2. Perspectives on Carbon Nanomaterials in Medicine Based upon Physicochemical Properties: Nanotubes, Nanodiamonds, and Carbon Nanobombs

      • Amanda M. Schrand
      Pages 3-29

    3. Carbon Nanomaterials for Drug Delivery

      • Rumei Cheng, Yuhua Xue
      Pages 31-80

    4. Cytotoxicity, Drug Delivery, and Photothermal Therapy of Functionalized Carbon Nanomaterials

      • Ye Wang, Jingquan Liu, Liang Cui, Dusan Losic
      Pages 81-111

    5. Carbon Nanotubes with Special Architectures for Biomedical Applications

      • Jun Li, Foram Ranjeet Madiyar, LuxiZhang Swisher
      Pages 113-143

    6. Photodynamic Therapy with Water-Soluble Cationic Fullerene Derivatives

      • Min Wang, Yingying Huang, Felipe F. Sperandio, Liyi Huang, Sulbha K. Sharma, Pawel Mroz et al.
      Pages 145-200

    7. Carbon Nanotube Field-Emission X-Ray-Based Micro-computed Tomography for Biomedical Imaging

      • Laurel M. Burk, Yueh Z. Lee, Jianping Lu, Otto Zhou
      Pages 201-225

    8. Nanotubes/Polymethyl Methacrylate Composite Resins as Denture Base Materials

      • Russell Wang, Ramazan Kayacan, Cenker KüçükeÅŸmen
      Pages 227-240

    9. Graphene for Biomedical Applications

      • Yufei Ma, Jie Huang, He Shen, Mengxin Zhang, Saijie Song, Zhijun Zhang
      Pages 241-267

    10. Bionic Graphene Nanosensors

      • Yong Lin Kong, Manu S. Mannoor, Michael C. McAlpine
      Pages 269-297

    11. Functionalized Carbon Nanodots for Biomedical Applications

      • Yun Kyung Jung, Yuri Choi, Byeong-Su Kim
      Pages 299-317

    12. Nanodiamonds: Behavior in Biological Systems and Emerging Bioapplications

      • Ivan ŘehoÅ™, Jitka Å legerová, Jan Havlík, Helena Raabová, Jakub Hývl, Eva Muchová et al.
      Pages 319-361

  3. Nanotechnology for Biomedical Applications: From Carbon Nanomaterials to Biomimetic/Bioinspired Systems

    1. Front Matter

      Pages 363-363
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    2. Bio-Inspired Engineering of 3D Carbon Nanostructures

      • Rajesh Kumar, Hyun-Jun Kim, Il-Kwon Oh
      Pages 365-420

    3. Janus Nanostructures for Biomedical Applications: Dual-Surfaces of Single Particle for Multifunctionality

      • Donglu Shi, Feng Wang, Yilong Wang
      Pages 421-443

    4. Protein Nanopatterning

      • Christopher N. Lam, Dongsook Chang, Bradley D. Olsen
      Pages 445-480

    5. Biomimetic Approach to Designing Adhesive Hydrogels: From Chemistry to Application

      • Yuting Li, Bruce P. Lee
      Pages 481-500

    6. Measuring Lipid Bilayer Permeability with Biomimetic Membranes

      • Kristina Runas, Noah Malmstadt
      Pages 501-532

    7. Fluorescent Nanosensor for Drug Discovery

      • Sha Jin, Huantong Yao, Erika Ellis
      Pages 533-542
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Keywords

About this book

This book covers a wide range of topics relating to carbon nanomaterials, from synthesis and functionalization to applications in advanced biomedical devices and systems. As they possess unique and attractive chemical, physical, optical, and even magnetic properties for various applications, considerable effort has been made to employ carbon nanomaterials (e.g., fullerenes, carbon nanotubes, graphene, nanodiamond) as new materials for the development of novel biomedical tools, such as diagnostic sensors, imaging agents, and drug/gene delivery systems for both diagnostics and clinical treatment. Tremendous progress has been made and the scattered literature continues to grow rapidly.

With chapters by world-renowned experts providing an overview of the state of the science as well as an understanding of the challenges that lie ahead, Carbon Nanomaterials for Biomedical Applications is essential reading not only for experienced scientists and engineers in biomedical and nanomaterials areas, but also for graduate students and advanced undergraduates in materials science and engineering, chemistry, and biology.

Editors and Affiliations

  • Department of Biomedical Engineering, Case Western Reserve University, Cleveland, USA

    Mei Zhang

  • Soft Matter Materials Branch, Air Force Research Laboratory, Dayton, USA

    Rajesh R. Naik

  • Department of Macromolecular Science, Case Western Reserve University, Cleveland, USA

    Liming Dai

About the editors

Mei Zhang is a Research Assistant Professor in the Department of Biomedical Engineering.  She also holds a joint appointment in University Hospitals-Case Comprehensive Cancer Center. Zhang's expertise ranges across the synthesis and characterization of polymers and nanomaterials, nanotechnology, tumor immunology, and immunotherapy in the treatment of cancer. Her primary research interest is to apply polymer materials to the design and development of novel nanoparticle systems for multifunctional applications, including gene drug delivery, biomedical imaging, and bio-energy systems (e.g., bio-fuel cells).

Rajesh Naik is the Research Group Leader in the Soft Matter Materials Branch of the Materials and Manufacturing Directorate at Air Force Research Laboratory. Naik’s expertise is in the area of biomaterials, nanomaterials, and bionanotechnology. His interests is primarily in developing biomimetic materials and devices for aerospace applications.

Liming Dai is the Kent Hale Smith Professor in the Department of Macromolecular Science and Engineering at Case Western Reserve University (CWRU). He is also director of the Center of Advanced Science and Engineering for Carbon (CASE4Carbon). Before joining the CWRU, he was an associate professor of polymer engineering at the University of Akron and the Wright Brothers Institute Endowed Chair Professor of Nanomaterials at the University of Dayton. Dr. Dai’s expertise lies across the synthesis, chemical modification and device fabrication of conjugated polymers and carbon nanomaterials for energy-related and biomedical applications.

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