Electronic CHANGE TOPIC

Electronic properties news, February 2023

Cellulose ink makes printing 3D wearable electronics easy

conductive cellulose-based ink for printing 3D stretchable wearable electronics is cheaper and less energy intensive to produce

Novel triple-doping strategy promises performance boosts

Researchers have discovered that quantum geometry is primarily responsible for the superconductivity of magic-angle graphene.

A new type of polysulfate compound can be used to make polymer film capacitors that can better withstand high heat and electric fields.

Using chiral phonons in a 2D material, researchers have managed to convert waste heat into spin information without needing magnetic materials.

Reseachers have discovered that antiferroelectric thin films become ferroelectric below a certain thickness.

Using molecular beam epitaxy, researchers have managed to deposit a ferroelectric semiconductor as a thin film just 5nm thick.

Researchers have discovered a novel quasiparticle that allows the thermal conductivity of ferroelectric materials to be altered by an electrical stimulus.

Researchers have found a way to switch the superconductivity in magic-angle graphene on and off with short electric pulses.

Researchers have developed a novel electrochromic material that can conduct both heating and cooling by switching between two different conformations.

Novel carbon-nanotube yarns can convert mechanical movement into electricity more effectively than other material-based energy harvesters.

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