Functional oxides are an untapped resource for futuristic devices and functionalities. These
functionalities can range from high temperature superconductivity to multiferroicity and novel …

In systems with broken spatial inversion symmetry, such as surfaces, interfaces, or bulk
systems lacking an inversion center, the application of a charge current can generate finite …

While spintronics has traditionally relied on ferromagnetic metals as spin generators and
detectors, spin–orbitronics exploits the efficient spin–charge interconversion enabled by …

The Edelstein effect produces a homogeneous magnetization in nonmagnetic materials with
broken inversion symmetry which is generated and tuned exclusively electrically. Often the …

Control of materials through custom design of ionic distributions represents a powerful new
approach to develop future technologies ranging from spintronic logic and memory devices …

The Mott transistor is a paradigm for a new class of electronic devices—often referred to by
the term Mottronics—which are based on charge correlations between the electrons. Since …

Electrolyte-gate transistors are a powerful platform for control of material properties,
spanning semiconducting behavior, insulator-metal transitions, superconductivity …

Unlike conventional planar photoelectrodes, bendable photoelectrodes expand their
applications through mechanical flexibility, making flexible green energy electronics a …

The development of novel nano-oxide spintronic devices would benefit greatly from
interfacing with emergent phenomena at oxide interfaces. In this paper, we integrate highly …

Superconductivity transition temperature (T c) marks the inception of a macroscopic
quantum phase-coherent paired state in fermionic systems. For 2D superconductivity, the …