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Treating perovskite solar cells with benzylamine to remove defects actually results in the formation of 2D material on the surface of the 3D crystal.
By combining thin organic layers with thick layers of hybrid perovskite, researchers have developed micrometer-thick organic light-emitting diodes.
With the help of a novel insulator made of calcium fluoride, scientists have created an ultra-thin transistor with excellent electrical properties.
Researchers have shown that coating zinc oxide nanowires with amorphous titania can enhance their ability to catalyze the water-splitting reaction.
Artificial proteins can self-assemble on a crystal surface by matching the pattern of amino acids in the protein with the atoms of the crystal.
Using a novel etching process, researchers have been able to fabricate fins on a novel semiconducting material, thereby enhancing its surface area.
Researchers have discovered a phenomenon that allows block copolymers to self-assemble in patterns that deviate from regular symmetrical arrays.
Researchers have uncovered the first example of a native metal with bistable and electrically switchable spontaneous polarization states.
Researchers have shown that a text-mining algorithm with no training in materials science can accurately predict novel thermoelectric materials.
new proactive risk governance system can keep pace with development and should lead to safer nanomaterials, products, and processes
Using x-ray spectroscopy, researchers have produced a ‘movie’ of thin film growth that depicts the process more accurately than ever before.
Leaves provided the template for hierarchical porous structures of mixed-metal oxides that act as supports for metal-organic framework crystals.
Researchers have determined the mechanism that allows a 2D perovskite crystal to emit green light, and also how to replicate it.
new insight into hematite nanorods could help future development of photoelectrochemical cells for water splitting
By taking advantage of defects, scientists have created new inorganic crystals made of stacks of atomically thin sheets that unexpectedly spiral.
flash infrared annealing (FIRA) could hold the key to low-cost environmentally friendly perovskite solar cells
set of basic design rules maps out the synthesis of interfaces in nanoparticles made from multiple elemental components
lithographic patterning of graphene down to 10 nm engineers the band gap
New process for fabricating oxide perovskite crystals