News Institutional News Research Update Facet News type Algebra Analysis Artificial intelligence Atomic physics Biochemistry Bioinformatics Biology Biophysics Biotechnology Botany Cell biology Chemistry Complex systems Computer sciences Condensed matter physics Cyber Security Data science Deep learning Developmental biology Developmental neuroscience Ecology Engineering and applied sciences Environmental sciences Evolutionary biology Fluid dynamics Genetics Genomics Health sciences Immunology Informatics Machine learning Marine sciences Material science Mathematics Mechanics Medicine Molecular biology (-) Nanoscience Neuroscience Optics Organic chemistry Photonics Physics Physiology Polymer chemistry Psychology Quantum Quantum field theory Robotics Soft matter physics Structural biology Synthetic biology Synthetic organic chemistry Theoretical sciences Topology Virology Facet Specialty 2024 2023 2022 2021 2020 2019 2018 (-) 2017 2016 2015 2014 2013 2012 2011 2010 2009 2008 2007 2005 Facet Date Created Clear filters Research Update Supercharging Silicon Batteries OIST scientists designed a novel silicon-based anode to provide lithium batteries with increased power and better stability. 06 September 2017 Research Update Shapeshifting Materials: Using Light to Rearrange Macroscopic Structures OIST researchers create self-assembling molecules which can be broken down by ultraviolet light to recombine into novel macroscopic shapes. 19 May 2017 Research Update Shaping the Future Iron nanocubes may be key in the future of NO2 sensing. 14 March 2017 Research Update 2D Materials Enhance a 3D World 2D layer increases effectiveness of optoelectronics 10 January 2017 Media Coverage Coverage of OIST in the media and on the web Media Coverage
Research Update Supercharging Silicon Batteries OIST scientists designed a novel silicon-based anode to provide lithium batteries with increased power and better stability. 06 September 2017
Research Update Shapeshifting Materials: Using Light to Rearrange Macroscopic Structures OIST researchers create self-assembling molecules which can be broken down by ultraviolet light to recombine into novel macroscopic shapes. 19 May 2017
Research Update Shaping the Future Iron nanocubes may be key in the future of NO2 sensing. 14 March 2017
Research Update 2D Materials Enhance a 3D World 2D layer increases effectiveness of optoelectronics 10 January 2017