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Understanding how sodium–metal sulfide batteries work.
Water-based, biocompatible ink formulations of two-dimensional materials including graphene, MoS2, WS2, and hexagonal boron nitride.
Transistors based on single semiconducting carbon nanotubes are pushing device performance to the ultimate physical limits.
Perovskite materials have optoelectronic properties promising for cheap, easy to make LEDs.
Scientists have discovered that "layer-edge-states" are responsible for the high efficiencies seen with 2D layered hybrid perovskites.
Scientists have combined silicon nanosheets with a polymer to produce a composite material that is UV-resistant and easy to process.
A new technique uses a diamond probe to detect and measure materials that give off weak magnetic signals or have no magnetic field at all.
Honoring and Promoting a Young researcher active in the fields of Nanofabrication and Nanotechnology for Electronics, MEMS and Life Sciences.
Aerosols could hold unique advantages for fabricating CNT layers for thin-film transistors.
The deadline is Monday 13 March 2017.
Sandwiching nanoclusters of magnesium oxide between two slices of graphene produces a material with enhanced optoelectronic properties.
A new technique uses the photoelectric effect to measure the electronic structures of stacks of two-dimensional materials.
A new, thermally-conductive rubber material could represent a breakthrough for creating soft, stretchable machines and electronics.
New calculations show that ferroelectric materials could process information with multivalued logic, leading to faster, more efficient computing.
Scientists have managed to reverse a material’s Hall coefficient, by fabricating it as a ring mesh structure at a micrometer scale.
Perovskite that can harvest different types of energy simultaneously.
LEDs made from arrays of nanorods that can both emit and detect light could lead to interactive displays that charge themselves from ambient light.
Live webinar - March 7th, 9 - 10 AM GMT – The nuts & bolts of Peer Review: a discussion by Biomaterials Editors Professors Pandit and Yu.
Layered black phosphorous is a promising candidate in design and optimization of electronics and optoelectronic devices.