Transition metal oxides exhibit fascinating and complex physical behaviors (e.g. intertwined charge/orbital/spin states and unexpected electronic phase competition) and excellent chemical properties (e.g. superior photo/electrochemical catalytic activities and sensing capabilities), making them an extraordinary class of candidate materials for applications ranging information processing, to energy conversion/storage/harvesting, to environmental sensing technologies. Remarkable advances in material synthesis (e.g. rational control of dimension/morphology of versatile nanostructures, atomically precise construction of epitaxial thin films/heterostructures, and formation of new phases under extreme conditions) and rapid development on the multimodal characterization with high spatial/temporal/energy resolution (e.g. in situ x-ray/electron/neutron techniques) have made a paradigm shift for exploring, understanding, and designing structures and functionalities of oxide materials at a deeper level. In particular, to obtain a detailed picture of physical and chemical processes near physical boundaries with its environment, the complex nucleation and growth of nanostructures as well as various thin films, and exotic phenomena of epitaxial heterostructures have become thematic objectives in this field and can accelerate the implementation of multifunctional oxide materials in emergent applications.

This symposium will cover the most recent developments, applications and forefront challenges in synthesis, properties and characterization techniques for studying multifunctional oxide materials. Particular attention will be paid high throughout combinative investigations on smart synthesis of nanostructures and epitaxial heterostructures, phase transformations and competitions under extreme conditions, functional defects formation/migration/ordering, (electro-/photo-)chemical reactions, and interface dynamics in environmental conditions. The goal of this symposium is to provide an interactive forum for scientists various fields who study the structure-property relation of multifunctional oxides. Specific sessions will be organized in regard with the scientific theme topics rather than with the similarity of the synthesis or characterization techniques to benefit cross-fertilization. We hope this symposium would help the materials scientists on multifunctional oxides to understand and take advantage of smart synthesis and advanced characterization approaches to solve the needed problems in their fields.

Symposium Topics

  • Synthesis and growth of functional oxides (e.g. nanoparticles, low-dimensional nanostructures, nanocomposites, thin films, bulk crystal nucleation and growth processes)
  • Synthesis and function measurement of novel multiferroics under extreme environments (pressure, temperature and magnetic field)
  • Electrochemically catalytic reactions at surfaces and interfaces of oxides
  • Electrochemical energy storage of oxides (e.g., Li-/Na-/Mg-ion batteries, pseudocapacitors, etc.)
  • Photocatalysis and photoelectrochemical catalysis of oxides
  • Active oxides for smart window applications
  • Design, characterization and control of multiferroic effects in oxide heterostructures
  • Advances in theoretical techniques for the smart design of multifunctional oxide heterostructures and heterointerfaces
  • Structure, property evolution and stability of oxides at various conditions (low dimensional geometry, stress, high/low temperature etc.)
  • Observing and visualizing creation and manipulation of functional defects in bulk, surface, interface and grain boundary of functional oxides

Invited Speakers

Confirmed Invited Speakers:

Dr. Zonghai Chen, Argonne National Laboratory, USA

Dr. Iñigo Garbayo, Catalonia Institute for Energy Research-IREC, Spain

Dr. Sylvie Hebert, Laboratoire CRISMAT, UMR 6508 CNRS, France

Prof. Taro Hitosugi, Tohoku University, Japan

Prof. Bharat Jalan, University of Minnesota, USA

Dr. Ma. de la Paz Cruz Jáuregui, Universidad Nacional Autónoma de México, Mexico

Prof. Ravhi Kumar, University of Nevada, Las Vegas, USA

Dr. Jin-Hong Lee, Korea Advanced Institute of Science and Technology, Korea

Dr. Xujie Lü Los Almos National Lboratory, USA

Dr. Petro Maksymovych, Oak Ridge National Laboratory, USA

Prof. James Rondinelli, Northwestern University, USA

Prof. Ambrose Seo, University of Kentucky, USA

Prof. Hiroki Wadati, University of Tokyo, Japan

Prof. Dunwei Wang, Boston College, USA

Prof. Jianbo Wang, Wuhan Universtity, China