With the development of cross-fertilisation in various disciplines, flexible wearable sensing
technologies have emerged, bringing together many disciplines, such as biomedicine …

State-of-the-art techniques like dual-frequency Time-Domain Thermoreflectance (TDTR) and
Frequency-Domain Thermoreflectance (FDTR) offer superb capability for simultaneous …

Optimizing material compositions often enhances thermoelectric performances. However,
the large selection of possible base elements and dopants results in a vast composition …

While high-throughput (HT) computations have streamlined the discovery of promising new
materials, experimental characterization remains challenging and time-consuming. One …

Frequency Domain Thermoreflectance (FDTR) is a versatile technique used to measure the
thermal properties of thin films, multilayer stacks, and interfaces that govern the performance …

Multilayer heterostructures composed of a substrate and an epitaxial film are widely utilized
in advanced electronic devices. However, thermal bottlenecks constrain their performance …

The absence of affordable and deployable large-scale energy storage poses a major barrier
to providing zero-emission energy on demand for societal decarbonization. High …

The increasing complexity of advanced materials with anisotropic thermal properties
necessitates more generic and efficient methods to determine three-dimensional (3D) …

Dark-field X-ray microscopy (DFXM) is a novel X-ray imaging technique developed at
synchrotrons to image along the diffracted beam with a real space resolution of~ 100 nm …

With developments in advanced manufacturing and materials by design comes the need for
high-throughput thermal characterization and inspection. Towards this end, Structured …