Hybrid-Nanomaterials Fabrication, Characterization and Applications
Produktdetaljer
Biographical note
Dr. Subash C.B. Gopinath is a professor in the Faculty of Chemical Engineering & Technology and Institute of Nano Electronic Engineering at Universiti Malaysia Perlis(UniMAP). In 25 years of scientific career, he obtained 8 patents, including an immune- aptamer that has been successfully commercialized internationally by Wako Chemicals, Japan. His research interests include Aptamers, Nanobiosensors, Nanotheranostics and Non-coding RNA.
Dr. Muhammad Mahyiddin Ramli is a director at the Institute of Nano Electronic Engineering (INEE) and an associate professor at Faculty of Electronic Engineering Technology, at Universiti Malaysia Perlis (UniMAP). His areas of research include Graphene synthesis and characterization for biomedical devices.
This book highlights the importance of surface nanomaterials for analytical applications and diagnostics. As widely been stated, surface is the base for all downstream analytical
applications and the incorporation of additional material to form a hybrid makes a drastic improvement in the performance of the surfaces. Even though, metallic hybrid materials play a pivotal role, non-metallic and metallic hybrid materials yield new avenues. Characterization of these hybrid nanomaterials provides a detailed insight, which
attests to new inventions and novel materials. Hybrid nanomaterials are characterized by analytical systems and to generate the analytical systems hybrid materials are essential. The potential of hybrid nanomaterials exists within various interdisciplinary sciences including medicine, which this book presents.
Introduction to Hybrid Materials and Nanostructures.- Analytical Tools for Characterizing Nanomaterials.- Methods for Fabrication of Metal Nanoparticles.- Fabrication and Characterization of Hybrids with Graphene Derivatives/Analogues for Analytical Applications.- Zero to Multi-dimensional Nanohybrid Materials: Synthesis and Characterization.- Graphene-Based Hybrid Materials and Their Applications.- Hybrid nanomaterials in biosensors for advanced point-of-care diagnostics: DNA-, enzyme-, or immunosensor-based, for healthcare.- Fabrication of Smart Spirometry Filter Using Silver Nanoparticles Coated on Pulmonary Function Filter for Preventing Bacterial Adhesion.- Preparation and Applications of Silicon and Silica Hybrid Materials.- Modified LiNbo3 films: Insights and potential applications.- Downstream applications of smart and hybrid nanomaterials.- Hybrid and smart Nanomaterials in Biosensors.
This book highlights the importance of surface nanomaterials for analytical applications and diagnostics. As widely been stated, surface is the base for all downstream analytical
applications and the incorporation of additional material to form a hybrid makes a drastic improvement in the performance of the surfaces. Even though, metallic hybrid materials play a pivotal role, non-metallic and metallic hybrid materials yield new avenues. Characterization of these hybrid nanomaterials provides a detailed insight, which
attests to new inventions and novel materials. Hybrid nanomaterials are characterized by analytical systems and to generate the analytical systems hybrid materials are essential. The potential of hybrid nanomaterials exists within various interdisciplinary sciences including medicine, which this book presents.
Produktdetaljer
Biographical note
Dr. Subash C.B. Gopinath is a professor in the Faculty of Chemical Engineering & Technology and Institute of Nano Electronic Engineering at Universiti Malaysia Perlis(UniMAP). In 25 years of scientific career, he obtained 8 patents, including an immune- aptamer that has been successfully commercialized internationally by Wako Chemicals, Japan. His research interests include Aptamers, Nanobiosensors, Nanotheranostics and Non-coding RNA.
Dr. Muhammad Mahyiddin Ramli is a director at the Institute of Nano Electronic Engineering (INEE) and an associate professor at Faculty of Electronic Engineering Technology, at Universiti Malaysia Perlis (UniMAP). His areas of research include Graphene synthesis and characterization for biomedical devices.