Invited speakers

Stefan Adams
National University of Singapore, Singapore
Solid state batteries with ultrathin composite electrolytes

Ainara Aguadero
ICMM-CSIC, Spain
The importance of surface chemistry in the stabilization of Na metal/NaSICON interfaces

Montse Casas Cabanas
CIC energiGUNE, Spain
Oxide and phosphate-based ion conductors: synthesis and low-temperature densification strategies

Candace Chan
Arizona State University, UK
Pyrochlore-to-Garnet: Effect of synthesis route on microstructure, ionic conductivity, and lithium striping/plating behavior in Ta- doped garnet solid electrolytes

Eddie Cussen
University of Sheffield, UK
Development of complex oxides from crystal chemistry to solid state batteries

James Dawson
Newcastle University, UK
Beyond the bulk: Modelling interfaces and ion transport in solid electrolytes

Marca Doeff
Lawrence Berkeley National Laboratory, US
Design considerations for batteries based on LLZO

Huanan Duan
Shanghai Jiao Tong University, China
Efficient preparation of moisture-stable lithium garnet and its lithiophilicity

Martin Finsterbusch
Forschungszentrum Jülich GmbH, Germany
Enabling LLZO based all-solid-state batteries – utilizing the unique advantages of garnets to re-design the cell production

Olivier Guillon
Forschungszentrum Jülich GmbH, Germany
Garnet competitors enabling room-temperature solid-state sodium batteries

Akitoshi Hayashi
Osaka Metropolitan University, Japan
Development of glassy sulfide electrolyte for all-solid-state lithium metal batteries

Yan-Yan Hu
Florida State University, US
Magnetic resonance insights into solid-state batteries: Transport and interfaces

Ryoji Inada
Toyohashi University Of Technology, Japan
Garnet solid electrolytes for ceramic-based solid-state Li battery applications

Yasutoshi Iriyama
Nagoya University, Japan
Lithium chemical potential engineering for low-resistive electrode/solid electrolyte interface by sintering process

Jürgen Janek
Justus Liebig University Giessen, Germany
The lithium metal anode on solid electrolytes – SEI formation and morphological instability

Kiyoshi Kanamura
Tokyo Metropolitan University, Japan
Cycle performance of all solid state battery with LLZO solid electrolyte, NMC composite cathode and Li metal anode

Ju-Sik Kim
Samsung Advanced Institute of Technology, South Korea
High-energy and long-lasting quasi-all-solid–state lithium batteries employing garnet solid electrolytes and interlayers

Masashi Kotobuki
Ming Chi University Of Technology, Taiwan
Stabilities of garnet-type solid electrolyte-theoretical and experimental approaches

Robert Kun
Research Centre for Natural Sciences, Budapest, Hungary
Copolymer Li-ion electrolytes for new generation Li-ion batteries

Lukas Ladenstein
AVL List GmbH, Austria
Module & battery pack integration of all-solid-state lithium ion cells in the automotive industry – facing the challenges

Pedro López-Aranguren
CIC energigune, Spain
Interfaces and ionic transport in solid-state batteries

Matthew McDowell
Georgia Institute of Technology, US
Understanding the evolution of high capacity anode materials in solid-state batteries

Yifei Mo
University of Maryland, College Park, US
Understanding and rational design of super-ionic conductors by first-principles computation and machine learning

Jagjit Nanda
SLAC National Lab and Stanford University, US
Design principles for integrating sulfide and halide based solid-electrolytes in solid-state batteries

Yaroslav Romanyuk
Empa - Swiss Federal Laboratories for Materials Science and Technology, Swiss
Magnetron sputtering of amorphous LLZO and LiPON thin-films as Li-ion conducting separators

Nataly Carolina Rosero-navarro
Hokkaido University, Japan
Synthesis of highly Li-ion conductive garnet-type solid ceramic electrolytes by solution-process-derived sintering additives

Jeff Sakamoto
University of Michigan, US
Mechano-electrochemical Phenomena at the Li/LLZO Interface

Julian Schwenzel
Fraunhofer IFAM, Germany
Challenges to manufacture solid state electrolyte separators for all solid state batteries

Donald Siegel
University of Texas at Austin, US
Paddlewheel dynamics: Past, present, and future

Peter Slater
University of Birmingham, UK
Development of Nb/Ta containing solid state electrolytes for Li ion batteries

Yoshitaka Tateyama
National Institute for Materials Science, Japan
Ab-initio equilibrium and non-equilibrium MD studies on ion transport around interfaces in solid electrolytes

Venkataraman Thangadurai
University of Calgary, Canada
Advanced electrolytes for high performance lithium-sulfur batteries

Nella Vargas-Barbosa
Forschungszentrum Jülich, Germany
Viability and transport characterization of hybrid material concepts for sulfide-based solid-state batteries

Eric Wachman
University of Maryland, College Park, US
High-rate Li-metal anodes in solid-state batteries by tailored materials, structures, and interfaces

Werner J. F. Weppner
Chr.-Albrechts University, Germany
GARNETS - The Gate to True All-Solid-State Batteries and the Other World of Solid-State Electrochemistry

Brandon Wood
Lawrence Livermore National Laboratory, US
Multiscale simulations of interface effects on chemistry, mechanics, and transport within garnet solid electrolytes

Hirotoshi Yamada
Nagasaki University, Japan
Garnet or NASICON: Materials and Processes for All-Solid-State Batteries

Wolfgang Zeier
University of Münster, Germany
On the local structure, ionic and thermal transport in state electrolytes