Natural bioproducts’ hybridization creates transient dynamic electret nanogenerators

Abstract: Breakthroughs in transient electronic materials are key to advancing the state of the arts in transient electronics. Here, we use a remarkable combination of the two natural bioproducts, microbial polyhydroxybutyrate...

“…[2] Sr 2 IrO 4 is also an antiferromagnetic Mott insulator, where the interlayer interaction strength is five orders of magnitude smaller than that of intralayer interactions. [15] This allows the H-or pressure-induced antiferromagnetic to weaken ferromagnetic transitions accompanied by an electronic phase transition. Such magnetic anisotropy modulations may assist development of future spintronic devices, including magnetic memories, spin-based logic devices, magnetic sensors, magnetic resonance imaging, spin-torque oscillators, spin valves, and quantum computation.…”

Exotic Magnetic Anisotropy Near Digitized Dimensional Mott Boundary

“…[2] Sr 2 IrO 4 is also an antiferromagnetic Mott insulator, where the interlayer interaction strength is five orders of magnitude smaller than that of intralayer interactions. [15] This allows the H-or pressure-induced antiferromagnetic to weaken ferromagnetic transitions accompanied by an electronic phase transition. Such magnetic anisotropy modulations may assist development of future spintronic devices, including magnetic memories, spin-based logic devices, magnetic sensors, magnetic resonance imaging, spin-torque oscillators, spin valves, and quantum computation.…”

Exotic Magnetic Anisotropy Near Digitized Dimensional Mott Boundary

Natural biopolymer/CuInS2 quantum dot-based red emissive, physically transient, and dynamically self-polarized piezoelectrets

Research progress of wood and lignocellulose in sustainable piezoelectric systems