Won-Chun Oh – författare

Because of their novel chemical and physical properties, functional nanomaterials have found increasing industrial applications in nanoelectronics, energy science, and biological applications. Functional Nanomaterials for Sensors surveys advances in functional nanomaterials and their use in sensing. It covers their properties, synthesis, design, fabrication, and their applications, including in chemical, biological, and gas sensing, environmental remediation, fuel cells, catalysis, electronic devices, and biotechnology. FEATURES: • Describes how nanomaterial functionalization is being used to create more effective sensors• Discusses various synthesis procedures, characterization techniques, and which nanomaterials should be used for sensing applications • Provides an in-depth look into oxide nanostructures, carbon nanostructures, and two-dimensional (2D) material fabrication • Explores the challenges of using nanoscale sensors for large-scale industrial applicationsThis book is aimed at materials, chemical, biotech, and electronics researchers and industry professionals working on sensor design and development.

Because of their novel chemical and physical properties, functional nanomaterials have found increasing industrial applications in nanoelectronics, energy science, and biological applications. Functional Nanomaterials for Sensors surveys advances in functional nanomaterials and their use in sensing. It covers their properties, synthesis, design, fabrication, and their applications, including in chemical, biological, and gas sensing, environmental remediation, fuel cells, catalysis, electronic devices, and biotechnology. • Describes how nanomaterial functionalization is being used to create more effective sensors. • Discusses various synthesis procedures, characterization techniques, and which nanomaterials should be used for sensing applications. • Provides an in-depth look into oxide nanostructures, carbon nanostructures, and 2D material fabrication. • Explores the challenges of using nanoscale sensors for large-scale industrial applications. This book is aimed at materials, chemical, biotech, and electronics researchers and industry professionals working on sensor design and development.

This book covers advances in nanostructured materials across a variety of biomedical applications as the field evolves from development of prototype devices to real-world implementation. It provides an in-depth look at the current state of the art in oxide nanostructures, carbon nanostructures, and 2D material fabrication and highlights the most important biomedical applications and devices of nanomaterials, including drug delivery, medical imaging, gene therapy, biosensors, and diagnostics.FEATURESPresents the findings of cutting-edge research activities in the field of nanomaterials, with a particular emphasis on biological and pharmaceutical applicationsDetails finished and ongoing toxicity evaluations of emerging nanomaterialsOffers a multidisciplinary perspectiveThis book is recommended for senior undergraduate and graduate students, professionals, and researchers working in the fields of bioengineering, materials science and engineering, and biotechnology.

This book covers advances in nanostructured materials across a variety of biomedical applications as the field evolves from development of prototype devices to real-world implementation. It provides an in-depth look at the current state of the art in oxide nanostructures, carbon nanostructures, and 2D material fabrication and highlights the most important biomedical applications and devices of nanomaterials, including drug delivery, medical imaging, gene therapy, biosensors, and diagnostics.FEATURESPresents the findings of cutting-edge research activities in the field of nanomaterials, with a particular emphasis on biological and pharmaceutical applicationsDetails finished and ongoing toxicity evaluations of emerging nanomaterialsOffers a multidisciplinary perspectiveThis book is recommended for senior undergraduate and graduate students, professionals, and researchers working in the fields of bioengineering, materials science and engineering, and biotechnology.

Integrating nanotechnology and sustainable energy frontiers, Advanced Hybrid Nanomaterials for Energy Storage explores the groundbreaking field of material design at the nanoscale for next‑generation energy storage solutions. This comprehensive text delves into the synthesis, characterization, and optimization of hybrid nanomaterials developed by combining the advantageous properties of diverse materials. This diverse range of materials includes metal oxides, carbon nanostructures, biopolymers, and functionalized surfaces. These materials have the potential to revolutionize energy storage technologies such as batteries and supercapacitors due to their synergistic properties and innovative applications.FEATURES Explores the latest advances in hybrid nanomaterial design for energy storage applications Discusses the benefits of combining different materials at the nanoscale range, exhibiting their combined properties which significantly outperform those of individual components Defines the various types of hybrid nanomaterials, including metal oxide/carbon nanocomposites, metal‑doped composites, and biopolymer‑based materials Focuses on the real‑world implications of hybrid nanomaterials in battery electrodes, supercapacitor electrodes, and other energy storage devices Summarizes the important role of these materials in transitioning to a clean and sustainable energy environmentThis book serves as an important resource for both industry professionals and academic researchers and is ideal for scientists and engineers working in advanced materials for energy storage applications.

Integrating nanotechnology and sustainable energy frontiers, Advanced Hybrid Nanomaterials for Energy Storage explores the groundbreaking field of material design at the nanoscale for next‑generation energy storage solutions. This comprehensive text delves into the synthesis, characterization, and optimization of hybrid nanomaterials developed by combining the advantageous properties of diverse materials. This diverse range of materials includes metal oxides, carbon nanostructures, biopolymers, and functionalized surfaces. These materials have the potential to revolutionize energy storage technologies such as batteries and supercapacitors due to their synergistic properties and innovative applications.FEATURES Explores the latest advances in hybrid nanomaterial design for energy storage applications Discusses the benefits of combining different materials at the nanoscale range, exhibiting their combined properties which significantly outperform those of individual components Defines the various types of hybrid nanomaterials, including metal oxide/carbon nanocomposites, metal‑doped composites, and biopolymer‑based materials Focuses on the real‑world implications of hybrid nanomaterials in battery electrodes, supercapacitor electrodes, and other energy storage devices Summarizes the important role of these materials in transitioning to a clean and sustainable energy environmentThis book serves as an important resource for both industry professionals and academic researchers and is ideal for scientists and engineers working in advanced materials for energy storage applications.