Diagnostics are essential components of the healthcare and medical industry. Their uses range from initial prognosis to accurate identification to continuous monitoring of the effectiveness of interventions. However, many diagnostics have a high cost, requiring specialist training and bulky instruments, and being time consuming to use.
Developments in detection technology and manufacturing have created a family of diagnostics that are:
- inexpensive and portable,
- easy to handle without special training,
- possible to mass produce,
- generally harmless and do not hold any potential health risk and
- highly sensitive with low detection limits and excellent robustness
Compiled from recent findings by leading global researchers, this book is a comprehensive reference for researchers looking to develop low-cost diagnostics for societal impact as well as health professionals interested in learning more about this technology. Broken down into five sections, coverage includes different techniques such as fluorescent probes, electrochemiluminescence and electroanalytical; fabrication of different types of biosensors; real-world applications; nanomaterial-based biosensors; and, finally, diagnostics based on 3D-printing for the diagnosis of viral infections and more.
Replacing existing conventional devices minimizes limitations and increases access. There is no need for you to continue to use the second best, read about how you can make an impact with new diagnostic tools that will save you time and money.
Tabela de Conteúdo
Colorimetric Paper-based Sensors for Low-cost Clinical Diagnostics
Fluorescent Probes Developed for Low-cost Small-molecule Diagnostics
Low-cost Electrochemiluminescence Sensors Empower Point-of-care Diagnostics
Advancement and Application of Nanomaterials Toward Cost-effective Immunosensing Platforms for Food Allergens
Graphene Nanomaterials for Sensors
Towards Nanozyme-based Biosensors for Internet of Things and Related Applications: A Cost-effective Approach to Healthcare Monitoring
Nanocellulose-based Low-cost Chemical Sensors for Healthcare Monitoring
Low-cost Microfluidic Paper-based Analytical Devices (µPADs): Fabrication Methods, Flow Control, and Applications
Recent Advances in COVID-19 Diagnostics
3D-printed Low-cost Electroanalytical Diagnostic Platforms: Basics, Materials, Fabrication, and Applications
Printed Electrodes for the Diagnosis of Viral Infections
Alpha-synuclein as a Molecular Marker for the Diagnosis of Neurological Disorders
Immunosensors for Cancer Biomarker Diagnosis: Promises and Challenges
Advancing Electrical Impedance Spectroscopy (EIS): Low-power, High-accuracy, Wide-dynamic-range, and High-throughput Impedance Measurement Circuits and Architectures