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.
Researchers discovered that a hidden ferromagnetic insulating (FMI) state emerged in Sr2Fe1+xRe1-xO6 films when the material’s local ionic order was disturbed by a small modification in cation ratio.1 This work provides a promising new route to developing
This work directly measured the intrinsic surface conductance of topological insulators by using a four-probe scanning tunneling microscope (4-Probe STM) to tune the crossover of bulk-to-surface conductance. A scattering-free spin transport
This work successfully demonstrated size and geometry customizable carbon microelectrode sensors using templates produced with the CNMS Nanoscribe.
Researchers utilized a roll-to-roll process to coat electrically conductive carbon fibers with semiconducting silicon carbide nanoparticles—demonstrating a scalable method to make reinforcing fibers for composite applications requiring strong
Peculiar outer-sphere water coordination of trivalent lanthanide complexes is shown in experiment and computation to correlate with the lanthanide selectivity of a diglycolamide ligand in the biphasic separation system