Demonstrated an automated materials multifunctional characterization platform with computer-centered experiments using real-time data fitting and modeling response.
Application of an electrical stimulation training protocol to a phospholipid droplet interface bilayer (DIB) results in persistent synaptic plasticity in the form of long-term potentiation (LTP), an important component of learning and memory in the
A novel time-domain quantum electronic dynamics method was developed to evaluate broad-band momentum-resolved cross-sections for electronic excitations of nanomaterials due to inelastic scattering.
Competition among exchange interactions is able to induce novel spin correlations on a bipartite lattice without geometrical frustration.
With advances in synthesis strategies, precise control of block copolymers over chemical species, architectures, block fractions, ionic groups, and molecular weights has become available.
Spatial control over molecular movement is typically limited because motion at the atomic scale follows stochastic processes.
Researchers revealed atomic-level correlated motion of water molecules at the crucial picosecond timescale to evaluate the dynamic nature of the liquid by using coherent X-ray scattering. This research could revolutionize understanding and control
The world’s first public benchmark dataset for the testing and evaluation of radiation detection and identification algorithms in an illicit radioactive source search campaign setting.
Direct laser writing, a nano 3D-printing approach, has enabled fabrication of customized carbon microelectrode sensors for neurochemical detection.
Metal halide perovskites are promising materials for optoelectronic and sensing applications.