New technologies for energy transition based on sustainable development goals : factors contributing to global warming /
New technologies for energy transition based on sustainable development goals : factors contributing to global warming /
Kaviyarasu Kasinathan, Rasiah Ladchumananandasivam, S. Beer Mohamed, editors.
- Singapore : Springer, 2024.
- xxx, 533 pages : illustrations (some color)
References -- Electroanalysis and Sensors for Biomedical and Clinical Applications -- 1 Introduction -- 1.1 Development of Sensors and Biosensor -- 2 Sensors -- 3 Biosensors -- 4 Electrochemical Biosensor -- 5 Biosensors in Biomedical and Clinical Applications -- 5.1 Biosensors in Diabetic -- 6 CVD Detecting Biosensors -- 7 Cancer Biosensor -- 8 Covid-19-Detecting Biosensor and Its Emergence -- 8.1 Asymptomatic Cases Versus Microbial Investigation Associated Biosensor in Covid-19 Cases -- 8.2 Sensor and Scan Already in Place for Covid-19 Diagnostic -- 8.3 PCR, RT-PCR in Covid-19 Antigen Diagnosis.
1. Pioneering Role of Two-Dimensional Materials in Revolutionizing Biomedical Sensing -- 2. An overview of drug delivery for wellbeing based on polysaccharides -- 3. Advanced nanomaterials, medical materials, and nanotechnology for the improved patient care -- 4. Electroanalysis and sensors for biomedical and clinical applications -- 5. Biomedical applications of nanocellulose-based biomaterials: recent advancements.
This book describes numerous issues and brings an improved understanding of a key agenda item for the sustainable development goals (SDGs). The SDGs represent an urgent call for action by all countries, developed and developing, working jointly within the global community. A few of the industries it supports include food processing, energy, biomedical science, space research, drug delivery, and biosensors. This book highlights multidisciplinary solutions for protecting the environment while ensuring the future of our planet. The book mainly targets undergraduates, postgraduates, and doctoral students who are working in materials science and researchers across the world working in interdisciplinary research for climate change for sustainable growth.
9789819725274 9819725275
Sustainable development.
Energy transition.
338.927 / KAS
References -- Electroanalysis and Sensors for Biomedical and Clinical Applications -- 1 Introduction -- 1.1 Development of Sensors and Biosensor -- 2 Sensors -- 3 Biosensors -- 4 Electrochemical Biosensor -- 5 Biosensors in Biomedical and Clinical Applications -- 5.1 Biosensors in Diabetic -- 6 CVD Detecting Biosensors -- 7 Cancer Biosensor -- 8 Covid-19-Detecting Biosensor and Its Emergence -- 8.1 Asymptomatic Cases Versus Microbial Investigation Associated Biosensor in Covid-19 Cases -- 8.2 Sensor and Scan Already in Place for Covid-19 Diagnostic -- 8.3 PCR, RT-PCR in Covid-19 Antigen Diagnosis.
1. Pioneering Role of Two-Dimensional Materials in Revolutionizing Biomedical Sensing -- 2. An overview of drug delivery for wellbeing based on polysaccharides -- 3. Advanced nanomaterials, medical materials, and nanotechnology for the improved patient care -- 4. Electroanalysis and sensors for biomedical and clinical applications -- 5. Biomedical applications of nanocellulose-based biomaterials: recent advancements.
This book describes numerous issues and brings an improved understanding of a key agenda item for the sustainable development goals (SDGs). The SDGs represent an urgent call for action by all countries, developed and developing, working jointly within the global community. A few of the industries it supports include food processing, energy, biomedical science, space research, drug delivery, and biosensors. This book highlights multidisciplinary solutions for protecting the environment while ensuring the future of our planet. The book mainly targets undergraduates, postgraduates, and doctoral students who are working in materials science and researchers across the world working in interdisciplinary research for climate change for sustainable growth.
9789819725274 9819725275
Sustainable development.
Energy transition.
338.927 / KAS