H.D. Mustafa Sunil H. Karamchandani Shabbir N. Merchant Uday B. Desai Mustafa tuPOY: Thermally Unstable Partially Oriented Yarns

tuPOY: Thermally Unstable Partially Oriented Yarns

von H.D. Mustafa Sunil H. Karamchandani Shabbir N. Merchant Uday B. Desai

Silicon of the Future

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Beschreibung

This book provides a new direction in electronics research with the invention of a new material tuPOY, which changes our perception of developing electronics. Evolving on a relatively underplayed phenomenon of static electricity in scientific exploration and application, tuPOY upholds the potential to rival both silicon and metals as electronics of the future. Devices made of tuPOY present a new emblem to the technological world, where we could envision our electronic paraphernalia from a completely different perspective. A computer the size of a big wall, which could be neatly folded and kept in our pockets when not in use and laundered on a regular basis, can be imagined possible with this invention. The concept, manufacturing process, physics and uses of tuPOY as the next generation material of electronics is described in this book.

The book covers the production process of tuPOY and goes on to conceptual advancement from manipulating the sensing, radiating and processingproperties of tuPOY. Theoretical modelling of tuPOY is characterized by steady-state equations exploiting interchanges based on the lattice kinetics, which mathematizes an Interchange Phenomenon in tuPOY. The numerical manifestations calibrate mathematically, tuPOY’s response to any external physical impetus such as charge, heat or energy flow.

The book validates the sensing properties and theoretical model by designing a tuPOY sensor which can be used in a plethora of applications. A novel microstrip antenna is designed by amalgamation of tuPOY, raw silk and polynylon composites to experimentally verify the radiation properties of the new material. The conduction properties are verified by drawing fibres of tuPOY and using them as wires and connectors in electronics. A Power Generating Unit (PGU) is designed with tuPOY as its primary element. This is a first of its kind PGU that scavenges power from thermal energy presenting a new dimension in operational power dynamics.

Overall this book should be of interest to a wide range of readers ranging from researchers, scientists, developers, manufacturers, engineers, graduate students and anyone who has satiety to think differently. 


This book provides a new direction in electronics research with the invention of a new material tuPOY, which changes our perception of developing electronics. Evolving on a relatively underplayed phenomenon of static electricity in scientific exploration and application, tuPOY upholds the potential to rival both silicon and metals as electronics of the future. Devices made of tuPOY present a new emblem to the technological world, where we could envision our electronic paraphernalia from a completely different perspective. A computer the size of a big wall, which could be neatly folded and kept in our pockets when not in use and laundered on a regular basis, can be imagined possible with this invention. The concept, manufacturing process, physics and uses of tuPOY as the next generation material of electronics is described in this book.

The book covers the production process of tuPOY and goes on to conceptual advancement from manipulating the sensing, radiating and processingproperties of tuPOY. Theoretical modelling of tuPOY is characterized by steady-state equations exploiting interchanges based on the lattice kinetics, which mathematizes an Interchange Phenomenon in tuPOY. The numerical manifestations calibrate mathematically, tuPOY’s response to any external physical impetus such as charge, heat or energy flow.

The book validates the sensing properties and theoretical model by designing a tuPOY sensor which can be used in a plethora of applications. A novel microstrip antenna is designed by amalgamation of tuPOY, raw silk and polynylon composites to experimentally verify the radiation properties of the new material. The conduction properties are verified by drawing fibres of tuPOY and using them as wires and connectors in electronics. A Power Generating Unit (PGU) is designed with tuPOY as its primary element. This is a first of its kind PGU that scavenges power from thermal energy presenting a new dimension in operational power dynamics.

Overall this book should be of interest to a wide range of readers ranging from researchers, scientists, developers, manufacturers, engineers, graduate students and anyone who has satiety to think differently. 


Introduces a brand new material that can work as silicon alternative Gives access to the entire structure of tuPOY in one publication No similar books, publications or materials available in the non-metallic domain which emulate the functions of tuPOY tuPOY is classified as the first non-metallic material having properties to replace silicon in the processor manufacturing domain Includes supplementary material: sn.pub/extras

Autor*in

H.D. Mustafa

Themen in »tuPOY: Thermally Unstable Partially Oriented Yarns«

Interchange Phenomenon Material Science Microprocessors New Materials Polymerization Static Electricity Silicon Replacement

Stimmen zu »tuPOY: Thermally Unstable Partially Oriented Yarns«

Details

ISBN: 9788132226307
Verlag: Springer India
Erscheinung: 08.12.2015

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