Nano-inspired Biosensors for Protein Assay with Clinical Applications introduces the latest developments in nano-inspired biosensing, helping readers understand both the fundamentals and frontiers in this rapidly advancing field. In recent decades, there has been increased interest in nano-inspired biosensors for clinical application. Proteins, e.g. antigen-antibody, tumor markers and enzymes are the most important target in disease diagnosis, and a variety of biosensing techniques and strategies have been developed for protein assay. This book brings together all the current literature on the most recent advances of protein analysis and new methodologies in designing new kinds of biosensors for clinical diagnostic use. Provides a single source of information on the latest developments in the field of biosensors for protein analysis and clinical diagnosis Focuses on biosensors fabricated with nanomaterials and nanotechnology Gives detailed methodologies for designing and fabricating nano-inspired biosensors
Electrochemical Analysis of Proteins and Cells presents the remarkable progress made over the years in the electrochemical analysis of proteins and cells, due to the rapid development of protein electrochemistry together with related technologies such as surface modification, molecular recognition, molecular assembly, and nanotechnology. As an interdisciplinary field combining electrochemistry, analytical chemistry, biochemistry, biophysics, biomedicine and material science, the electrochemical analysis of proteins and cells has attracted broad and extensive research interest. The main emphasis of this book is on the principles of electrochemical strategies and the practical utility of related detection systems, which is of great importance in all biological sciences, such as cell biology and molecular biology, as well as in biomedical fields like cancer research. This brief offers an up-to-date, easy-to-follow presentation of recent advances on the subject and can serve as a supplement for graduate-level courses in analytical chemistry, biochemistry, biophysics, biotechnology, biomedical engineering, etc. It may also help young scientists get an overview of this topic.
Electrochemical Analysis of Proteins and Cells presents the remarkable progress made over the years in the electrochemical analysis of proteins and cells, due to the rapid development of protein electrochemistry together with related technologies such as surface modification, molecular recognition, molecular assembly, and nanotechnology. As an interdisciplinary field combining electrochemistry, analytical chemistry, biochemistry, biophysics, biomedicine and material science, the electrochemical analysis of proteins and cells has attracted broad and extensive research interest. The main emphasis of this book is on the principles of electrochemical strategies and the practical utility of related detection systems, which is of great importance in all biological sciences, such as cell biology and molecular biology, as well as in biomedical fields like cancer research. This brief offers an up-to-date, easy-to-follow presentation of recent advances on the subject and can serve as a supplement for graduate-level courses in analytical chemistry, biochemistry, biophysics, biotechnology, biomedical engineering, etc. It may also help young scientists get an overview of this topic.
Nano-inspired Biosensors for Protein Assay with Clinical Applications introduces the latest developments in nano-inspired biosensing, helping readers understand both the fundamentals and frontiers in this rapidly advancing field. In recent decades, there has been increased interest in nano-inspired biosensors for clinical application. Proteins, e.g. antigen-antibody, tumor markers and enzymes are the most important target in disease diagnosis, and a variety of biosensing techniques and strategies have been developed for protein assay. This book brings together all the current literature on the most recent advances of protein analysis and new methodologies in designing new kinds of biosensors for clinical diagnostic use. Provides a single source of information on the latest developments in the field of biosensors for protein analysis and clinical diagnosis Focuses on biosensors fabricated with nanomaterials and nanotechnology Gives detailed methodologies for designing and fabricating nano-inspired biosensors
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