Morphing Polymer Shape and Motion with Light
Computational modelling shows how the shape and motion in a polymer gel can be controlled solely by light.
Computational modelling shows how the shape and motion in a polymer gel can be controlled solely by light.
Single palladium atoms convert the surface of an inexpensive metal into an ultra-selective hydrogenation catalyst.
Understanding fundamental chemistry is important for accurate engine modeling.
Electric fields control growth of “sticky” polymer particles.
Discovery of coexisting ordered and disordered catalytic nanoparticles.
Groups of Palladium atoms found to have major effects on electrocatalyst performance.
Precise, predictable positioning of nanoparticles on a liquid crystal droplet.
Key steps revealed in assembling the active site of a hydrogen-generating catalyst in bacteria.
Direct visualization of magnetic structures gives researchers a window into new possibilities at the Nanoscale.
Layers of quantum dots Form “rainbow architecture” that enhances light absorption in a solar cell.
Designing a novel catalyst for the production of hydrogen.
Linking together two light absorbing pigments to construct a better artificial photosynthesis solar cell.