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The seventh volume in a series of handbooks on graphene research and applications The Handbook of Graphene, Volume 7: Biomaterials presents an overview of various graphene research initiatives and specific biomedical applications, where the properties of graphene are used differently. The book shares information on how graphene and graphene-based materials are utilized for the following types of applications: bio-targeting; medical and biomedical; drug delivery; antibacterial; and biological, biosensing and bioimaging. Topics covered include the role of graphene-based materials in: regenerative medicine; resistive memories and transistors; and implants in biomedicine. The impact of graphene-based biomaterials on biomedical applications is discussed, as are graphene-based systems in the delivery of therapeutics to the brain and central nervous system.
The seventh volume in a series of handbooks on graphene research and applications The Handbook of Graphene, Volume 7: Biomaterials presents an overview of various graphene research initiatives and specific biomedical applications, where the properties of graphene are used differently. The book shares information on how graphene and graphene-based materials are utilized for the following types of applications: bio-targeting; medical and biomedical; drug delivery; antibacterial; and biological, biosensing and bioimaging. Topics covered include the role of graphene-based materials in: regenerative medicine; resistive memories and transistors; and implants in biomedicine. The impact of graphene-based biomaterials on biomedical applications is discussed, as are graphene-based systems in the delivery of therapeutics to the brain and central nervous system.
The seventh volume in a series of handbooks on graphene research and applications The Handbook of Graphene, Volume 7: Biomaterials presents an overview of various graphene research initiatives and specific biomedical applications, where the properties of graphene are used differently. The book shares information on how graphene and graphene-based materials are utilized for the following types of applications: bio-targeting; medical and biomedical; drug delivery; antibacterial; and biological, biosensing and bioimaging. Topics covered include the role of graphene-based materials in: regenerative medicine; resistive memories and transistors; and implants in biomedicine. The impact of graphene-based biomaterials on biomedical applications is discussed, as are graphene-based systems in the delivery of therapeutics to the brain and central nervous system.
An eight-volume set of handbooks on graphene research and applications This set features Volumes 1, 2, 3, 4, 5, 6, 7, and 8 of the Handbook of Graphene. Each volume is dedicated to specific topics within the subject area, such as Physics, Chemistry, and Biology; Biomaterials; and Composites. The handbooks offer an overview of graphene research and its role in emerging applications. Graphene, a a valuable nanomaterial, is used in leading edge technological development, including sensing and biosensing. Topics covered in detail within the handbooks include: graphene composites; the synthesis and functionalization of graphene on various substrates; modeling methods in graphene research; and graphene-based materials for biological applications.
The second volume in a series of handbooks on graphene research and applications Graphene is a valuable nanomaterial used in technology. This handbook features graphene topics related to Physics, Chemistry, and Biology. The Handbook of Graphene, Volume 2 delivers an overview on the numerous and diverse graphene research directions and innovations. The handbook covers a range of areas including graphene in optoelectronic devices and as a detector of biomolecules.
The second volume in a series of handbooks on graphene research and applications Graphene is a valuable nanomaterial used in technology. This handbook features graphene topics related to Physics, Chemistry, and Biology. The Handbook of Graphene, Volume 2 delivers an overview on the numerous and diverse graphene research directions and innovations. The handbook covers a range of areas including graphene in optoelectronic devices and as a detector of biomolecules.
This unique multidisciplinary 8-volume set focuses on the emerging issues concerning graphene materials and provides a shared platform for both researcher and industry. The Handbook of Graphene comprises a set of 8 individual volumes that brings an interdisciplinary perspective to accomplish a more detailed understanding of the interplay between the synthesis, structure, characterization, processing, applications and performance of the advanced materials. The Handbook of Graphene comprises 140 chapters from world renowned experts. Volume 1 is solely focused on Growth, Synthesis, and Functionalization of Graphene. Some of the important topics include but not limited to: Graphite in metallic materials-growths, structures and defects of spheroidal graphite in ductile iron; synthesis and quality optimization; methods of synthesis and physico-chemical properties of fluorographenes; graphene-SiC reinforced hybrid composite foam: response to high strain rate deformation; atomic structure and electronic properties of few-layer graphene on SiC(001); features and prospects for epitaxial graphene on SiC; graphitic carbon/graphene on Si(111) via direct deposition of solid-state carbon atoms: growth mechanism and film characterization; chemical reactivity and variation in electronical properties of graphene on Ni(111) and reduced graphene oxide; chlorophyll and graphene: a new paradigm of biomimetic symphony; graphene structures: from preparations to applications; three-dimensional graphene-based structures: production methods, properties and applications; electrochemistry of graphene materials; hydrogen functionalized graphene nanostructure material for spintronic application; the impact of uniaxial strain and defect pattern on magnetoelectronic and transport properties of graphene; exploiting graphene as an efficient catalytic template for organic transformations: synthesis, characterization and activity evaluation of graphene-based catalysts; exfoliated graphene based 2D materials; synthesis and catalytic behaviors; functionalization of graphene with molecules and/or nanoparticles for advanced applications; carbon allotropes "between diamond and graphite": how to create semiconductor properties in graphene and related structures.
The seventh and eighth volumes of Handbook of Carbon Nano Materials focus on novel properties and applications of nanocarbons, viz., graphene, nanotube and fullerene. The books provide a comprehensive overview of the author's work, and significant discoveries and pioneering contributions from other groups. Specific applications cover latest developments in graphene synthesis, CVD of carbon nanomaterials, multifunctional carbon nanostructures, chemical manipulation, energy conversion and storage, nanotube micellar surface chemistry, and biosensor development. This is a highly useful book for graduate students, as well as beginning and senior researchers.
The fourth volume in a series of handbooks on graphene research and applications The Handbook of Graphene, Volume 4: Composites looks at composite materials exclusively. Topics covered include graphene composites and graphene-reinforced advanced composite materials. The following graphene-based subjects are discussed: ceramic composites; composite nanostructures; composites with shape memory effect; and scroll structures. Chapters also address: the fabrication and properties of copper graphene composites; graphene metal oxide composite as an anode material in li-ion batteries; supramolecular graphene-based systems for drug delivery; and other graphene-related areas of interest to scientists and researchers.
The third volume in a series of handbooks on graphene research and applications Graphene is a valuable nanomaterial used in technology. This handbook is focused on Graphene-Like 2D Materials. The Handbook of Graphene, Volume 3 covers topics that include planar graphene superlattices; magnetic and optical properties of graphene materials with porous defects; and nanoelectronic application of graphyne and its structural derivatives.