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Symposium H04: Wearable and Flexible Electronic and Photonic Technologies

Symposium Focus: With the advent of connected living, health and communication, and its proliferation to the development of the internet of things, wearable devices are a critical technology. Underlying advancements in wearable and flexible electronic and photonic technologies, are materials science of new and alternative materials and methods of coating and deposition, characterization of flexible and transparent or plastic electronic devices, the electronics behind new sensor development for wearables and flexible technology, and new device design concepts. This symposium will address all aspects of wearable and flexible devices technology, from materials through working prototypes and provide a leading international forum for the most exciting developments in the fundamental science and device engineering of next-generation electronics and photonics for a whole range of applications.

Invited Speakers and Special Features: Many inspirational speakers and leaders in wearable and flexible science and technology will be featured in this symposium, including Joe Wang, Mark Hersam, Huisheng Peng, Zhong Lin Wang, Bozhi Tian, Yuri Gogotsi and many others. The symposium

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Symposium E01: Electrodeposition of Micro and Nano Materials for Batteries and Sensors

Symposium Focus: This symposium will cover advances in electrochemical deposition (electrolytic, electroless, chemical bath or electrochemical ALD) for energy storage and sensor devices. The electronics industry has demonstrated electrochemical processing at micro and nano dimensions for interconnect, barrier layer, magnetics and solder applications for metals, alloys and composites. A large number of relevant active materials and current collector scaffolds can also be deposited, structured and post-processed electrochemically for use in advanced batteries and sensor devices. These processes can enable future micro-devices for the internet of things but equally can address improvements in certain components for large capacity batteries, electrolyzers or fuel cells. Our symposium welcomes also papers covering vapor deposition techniques such as ALD which can be used in combination with the wet chemical deposition routes for the fabrication of microdevices.

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Symposium C02: High Temperature Corrosion and Materials Chemistry 13

Symposium Focus: On thermodynamic and kinetic aspects of high temperature oxidation and corrosion, as well as other chemical reactions involving inorganic materials at high temperatures. Studies on materials interactions in high temperature processing or power, propulsion, and energy applications are welcome. Both theoretical and experimental papers are accepted, and contributions from industry and students are especially encouraged.

Featured Invited Speakers: Include Prof. David Young, University of New South Wales, “Preventing high temperature corrosion of chromia-forming alloys by CO2”, Dr. Valerie Wiesner, NASA Glenn Research Center, “Developing Environmental Barrier Coatings Resistant to Molten CMAS”, Prof. Laurence Latu-Romain, Grenoble Alpes University, “Chromia semiconducting properties study: a textbook case?”, and Prof. Yury Gogotsi, Drexel University, “High-temperature behaviors of MXenes”

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Symposium L06: Nanoporous Materials

Symposium Highlights: Nanoporous materials have unique surface, structural, and bulk properties that enable their applications in electrochemical sensing, catalysis, environmental remediation, photoelectrochemistry, and energy storage. The development of nanoporous materials requires specialized design, synthesis, and characterization methods that tailor pore structure and chemistry to achieve desired material properties. The goal of this symposium is to explore unique challenges and opportunities in the evolution and utilization of nanoporous materials.

Topics of Interest: Including but are not limited to: 1) design, simulation, and/or characterization of nanoporous materials, 2) novel synthesis methods, 3) unique applications of nanoporous materials in electrochemistry and beyond, and 4) insights into the effects of pore structure and surface functionalization on the properties and potential applications of nanoporous materials.

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