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Practical lab manual on the stepwise description of the experimental procedures of micro electromechanical systems (MEMS) devices Micro Electromechanical Systems (MEMS) is a highly practical lab manual on the relevant experimental procedures of MEMS devices, covering technical aspects including simulations and modeling, practical steps involved in fabrication, thorough characterizations of developed MEMS sensors, and leveraging these sensors in real-time targeted applications. The book provides in-depth coverage of multi-physics modeling for various sensors, as well as fabrication methodologies for photolithography, soft lithography, 3D printing, and laser processing-based experimental details for the realization of MEMS devices. It also covers characterization techniques from morphological to compositional, and applications of MEMS devices in contemporary fields such as microfluidics, wearables, and energy harvesters. The text also includes a foundational introduction to the subject. The book covers additional topics such as: Basic fluid flow and heat transfer in microfabrication, Y and T channel mixing, and simulation processes for Droplet generation Simulations based on cyclic voltammetry and electrochemical impedance spectroscopy, screen and ink-jet printing, laser-induced graphene, reduced graphene oxide, and 3D printing X-ray diffraction, scanning electron microscopy, optical microscopy, Raman spectroscopy, energy dispersive spectroscopy, and Fourier Transform Infrared (FTIR) Spectroscopy Experimental stepwise details to enable students to perform the experiments in the practical laboratory and future outlooks on the direction of the fieldA practical guidebook on the subject, Micro Electromechanical Systems (MEMS) is a must-have resource for students, academicians, and lab technicians seeking to conduct experiments in real-time.

Droplet and Digital Microfluidics: Ideation to Implementation is a detailed introduction to the dynamics of droplet and digital microfluidics, also featuring coverage of new methods and applications. The explosion of applications of microelectromechanical systems (MEMS) in recent years has driven demand for expertise and innovation in fluid flow in the microchannels they contain. In this book, detailed descriptions of methods for biological and chemical applications of microfluidics are provided, along with supporting foundational knowledge. In addition, the principles of droplet and digital microfluidics are explained, along with their different applications and governing physics. New additions to the technological knowledgebase that enable advances in droplet and digital microfluidics include machine learning and exciting future avenues for research.

This book is about areas involved in electrical and electronics engineering which comprises broad subjects such as MEMS and Microfluidics, VLSI, Communication and Signal Processing. It discusses the recent trends in various aspects of research areas for diverse applications like biomedical, biochemical, and power source systems.