Disposable And Flexible Chemical Sensors And Biosensors Made With Renewable Materials
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Disposable And Flexible Chemical Sensors And Biosensors Made With Renewable Materials
Sensors for measuring and detecting chemical and biological substances are comprehensively used and are, for the most part, unobtrusive. They can help monitor our health through alerting us to chemical or biological changes in our bodies, our environment through checking air quality or pollution levels and they can contribute towards a more sustainable future. Polymer-based sensors are the subject of much attention due to their ability to collect molecules on their flexible sensory surfaces. However, most petroleum-based polymers are not renewable, leading to problems of waste-disposal. By using renewable materials, such as paper, cotton or starch, these problems can be overcome. This book reviews the current state-of-play in renewable-material-based chemical sensors and biosensors, and suggests applications in industry, environment and biomedicine.
Regenerated Cellulose and Composites
This book highlights the morphology-property relationship of regenerated cellulose materials and composites, as morphology of materials is the key feature and corresponds to associated applications of/to the materials. It is highly essential to assimilate the literature on morphology-property relationship of cellulose materials. Being the most abundant natural polymer on earth and gateway to large number of applications, cellulose is expected to be researched for higher efficiencies. Various books and research articles have targeted the specific morphologies, the respective characteristics and application areas. This book presents literature on morphology-property relationship of cellulose materials and provides a direction to this relationship.
Disposable Electrochemical Sensors for Healthcare Monitoring
Author: Dr A. Pandikumar
language: en
Publisher: Royal Society of Chemistry
Release Date: 2021-05-05
Disposable electrodes have been widely used as a sensing platform in electrical and electrochemical sensors owing to the possibility of quantitative detection using clinical biomarkers with high precision, sensitivity and reproducibility, which are necessary for accurate diagnosis of the health condition of an individual. This book focusses on the emerging disposable electrochemical sensors in the health sector and the advancement of analytical devices to monitor diabetic, cancer and cardiovascular patients using different nanomaterials. It discusses the upcoming strategies, advantages and the limitations of the existing devices using disposable electrodes. Uniquely, it covers in-depth knowledge of mechanistic features of various designs of screen-printing electrodes and the material aspects required of sensors developed for the healthcare field. It also looks at the portable devices using a variety of materials and the future directions for research in this area. Appealing to the health care industry, this book is aimed at academic and research institutes at both the graduate and postgraduate level. The contributors are leading experts in the field and they are providing guidance for the next decade of research in the field of disposable electrochemical biosensors.