Pressure sensors have become a pivotal part of sensing technology due to their high accuracy, low power consumption and low response time to detect the amount of force/pressure needed to conduct an operation.

Pressure induced Flexible Sensors: Fabrication Characterization and Application highlights the research done on the fabrication and implementation of different pressure-induced flexible sensors. It provides a detailed overview of the different types of pressure sensors used in healthcare, industrial and environmental sectors. It encompasses the entire spectrum from fabrication to application of the pressure sensors used in the current scenario. The book categorizes the sensors by their operating mechanisms and practical uses, with clear explanations of key working principles including piezoresistive, piezoelectric, capacitive, and triboelectric technologies. The also authors showcase breakthrough developments in multimodal and biodegradable sensing, pushing the boundaries of what's possible in sensor design. Finally, the challenges and remedies of current pressure sensors are examined and explained.

This book is aimed at graduate level students and researchers in the fields of electrical engineering and materials science engineering who are interested in the development of sensor technology for industrial, biomedical, and related applications.



Autorentext

Anindya Nag a Professor at Technische Universität Dresden, Germany. He earned his MS degree at Massey University, New Zealand, in 2015 and a PhD at Macquarie University, Australia, in 2018. He also earned postdoctoral fellowships at King Abdullah University of Science and Technology (KAUST), Saudi Arabia, and Shandong University, China. He was a Lecturer at Dongguan University of Technology, China, from February 2019 to August 2020. Dr. Nag's research interests span MEMS (Micro-Electro-Mechanical Systems), flexible sensors, printing technology, and nanotechnology-based smart sensors for healthcare, environmental, and industrial monitoring applications. His work emphasizes the fabrication, characterization, and implementation of smart sensors for multifunctional applications, particularly nanomaterials-based bio-sensing devices.

Titel
Pressure-Induced Flexible Sensors
Untertitel
Fabrication, Characterization and Application
EAN
9781040583791
Format
E-Book (pdf)
Veröffentlichung
30.11.2026
Digitaler Kopierschutz
frei
Anzahl Seiten
384