Large second-order susceptibility from a quantized indium tin oxide monolayer – Nature Nanotechnology Source Cluster: Nature Nanotechnology Source Node: 3043462Time Stamp: Jan 1, 2024
3D spatiotemporally scalable in vivo neural probes based on fluorinated elastomers – Nature Nanotechnology Source Cluster: Nature Nanotechnology Source Node: 3036086Time Stamp: Dec 22, 2023
New 2.5-dimensional structures observed in twisted graphite hybrids – Physics World Source Cluster: Physics World Source Node: 2854348Time Stamp: Aug 30, 2023
Electrical detection of the flat-band dispersion in van der Waals field-effect structures – Nature Nanotechnology Source Cluster: Nature Nanotechnology Source Node: 2833663Time Stamp: Aug 17, 2023
Staggered-layer-boosted flexible Bi2Te3 films with high thermoelectric performance – Nature Nanotechnology Source Cluster: Nature Nanotechnology Source Node: 2799877Time Stamp: Jul 27, 2023
Spin-dependent properties of optical modes guided by adiabatic trapping potentials in photonic Dirac metasurfaces Source Cluster: Nature Nanotechnology Source Node: 2617000Time Stamp: Apr 27, 2023
Controlling materials properties through nanoscale patterning Source Cluster: Nanowerk Source Node: 2608408Time Stamp: Apr 25, 2023
Operando characterization and regulation of metal dissolution and redeposition dynamics near battery electrode surface Source Cluster: Nature Nanotechnology Source Node: 2599949Time Stamp: Apr 20, 2023
Quantum sensors see Weyl photocurrents flow: Boston College-led team develops new quantum sensor technique to image and understand the origin of photocurrent flow in Weyl semimetals Source Cluster: Nanotechnology Now Recent News Source Node: 1928511Time Stamp: Jan 30, 2023
Bidirectional phonon emission in two-dimensional heterostructures triggered by ultrafast charge transfer Source Cluster: Nature Nanotechnology Source Node: 1788882Time Stamp: Dec 20, 2022
Vortices appear in an electron fluid Source Cluster: Physics World Source Node: 1625522Time Stamp: Aug 16, 2022
Charge-transport mystery deepens in promising solar-cell materials Source Cluster: Physics World Source Node: 1577376Time Stamp: Jun 8, 2022