#TheBatteryShow
SolidState ionics is the fundamental underpinning science behind many of the electrochemical technologies needed to achieve net zero, such as fuelcells, electrolysers to produce green hydrogen, Li and sodium batteries for transport and grid storage.
The focus of this conference has been how to promote basic research, materials discovery and materials processing for application in the electrochemical devices urgently needed to achieve the green energy transition. It was also focused on the advanced characterisation and modelling techniques necessary to support and accelerate this process. Finally we covered the application in to a range of devices including novel applications in electronics.
There was tutorials for research students and postdocs new to the field of solid state ionics, which was held on Sunday the 14th of July starting at 10:00am. The tutorials were organised into two parallel sessions, one dealing with the fundamentals of solid state ionics and an introduction to SSI devices, the other covered advanced characterisation techniques covering surface and bulk analysis.
Lattice transport in solid state ionic materials
Grain boundary transport in solid state ionic materials (homogenous interfaces)
Interfacial transport in solid state ionic devices (heterogeneous interfaces)
High Entropy materials
Microstructural optimisation
Simulation techniques
Polymeric materials
Lattice Atom transport
Surface characterisation
Microstructural characterisation: Atomic resolution imaging
In-situ and in-operandi
Devices for a Net Zero World
Energy Storage
Microstructural characterisation: Atomic resolution imaging
Iontronics
Participants: Bobbie Li , Mavis Ma ,
NEWARE
4130 164TH CT SE, Bellevue, WA, USA, 98006
The lab focuses on solid-state battery research to overcome traditional lithium batteries' safety and energy density issues, supporting environmental sustainability. It develops innovative solid-state electrolytes, refines electrode materials, and investigates ion transfer and interface stability to revolutionize battery technology.
The electric vehicle battery industry is rapidly developing, focusing on technological innovation, market competition, and sustainability. Research hotspots include solid-state batteries, new types of electrolytes, BMS optimization, and recycling technologies. The environmental adaptability, safety, and economic viability of batteries are key research areas, and the industry is expected to undergo more innovation and transformation.
Electric Hoverboard, electric scooters, e bikes, and electric motorcycles are changing the way people travel, with the development of battery technology being at the core of this transformation. The main issues faced by electric bicycle batteries include battery cost, range, the popularity of charging infrastructure, thermal management of batteries, and safety. As battery technology continues to advance, it provides more reliable power support for these intelligent devices.
We specialize in battery preparation technology research, focusing on overcoming existing energy storage challenges by innovating in electrode materials, battery chemistry, and manufacturing processes to improve performance, enhance safety, and reduce costs. Sustainability and recycling technologies for batteries are also emphasized to mitigate environmental impacts and foster the growth of green energy.
