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This book, now in its second edition, offers an essential overview of screen-printing. Routinely utilised to fabricate a range of useful electrochemical architectures, screen-printing is also used in a broad range of areas in both industry and academia. It supports the design of next-generation electrochemical sensing platforms, and allows proven laboratory-based approaches to be upscaled and commercially applied. To those skilled in the art, screen-printing allows novel and useful electrochemical architectures to be mass produced, offering fabrication processes that are cost-effective yet highly reproducible and yield significant electrical benefits.
The book equips readers to set about the task of screen-printing, explaining its techniques and implementation and will be of interest to both academics and industrialists delving into screen-printing for the first time. It offers an essential resource for those readers who want learn to successfully design, fabricate and implement (and mass-produce) electrochemical based architectures, as well as those who already have a basic understanding of the process and want to advance their technical knowledge and skills. The books second edition is now expanded and includes addition case studies.
List of contents
Introduction and current applications of screen-printed electrochemical architectures.- Fundamentals of screen-printing electrochemical architectures.- Fabricating screen-printed electrochemical architectures: successful design and fabrication.- Quality Control/Quality analysis of electrochemical screen-printed sensors.
About the author
Craig is a Professor/Personal Chair in Chemistry and has published more than 700 papers with his research focuses on electrochemistry both applied and fundamental which includes screen-printing and additive manufacturing.
Dr Robert Crapnell is a Research Technical Professional and the Technical Facility Manager for Electrochemistry and Polymer Research at MMU. He has published over 150 papers, with his research focussing on material and methodology development for screen-printing and additive manufacturing, with applications of electrochemical sensors, as well as energy storage and conversion devices.