TS-074813 — Thermoelectric technologies offer a compelling route for waste heat recovery, solid-state cooling, and power generation, but their adoption remains limited by inherently low efficiency. Conventional materials are constrained by tradeoffs between electrical conductivity, thermopower, and thermal co…

TS-074715 — Next‑generation power electronics require devices that can operate efficiently under high voltages, high currents, and harsh environments while maintaining fast, reliable switching. Existing electrically gated solutions in wide and ultra‑wide bandgap semiconductors face tradeoffs among robustn…

TS-074383 — Many advanced sensing, imaging, and optoelectronic systems rely on compound semiconductors that outperform silicon in key spectral and electronic regimes, particularly in the infrared. However, these materials are expensive and difficult to scale, while silicon remains the industry standard for hi…

TS-074333 — Chemical batteries provide high power output but are constrained by finite stored energy and the need for periodic recharging. This is often impossible in remote, sealed, or radiation‑intensive environments such as space systems, subsea platforms, and isolated terrestrial installations. Radiovol…

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TS-073810 — Next-generation power electronics demand materials that can support ultra-high breakdown voltages, low leakage currents, and scalable manufacturing. While β-Ga₂O₃ is highly attractive for these applications, device performance has been limited by the lack of high-quality, thick drift layers w…

TS-073809 — High-sensitivity detection in the mid-wave and long-wave infrared (MWIR/LWIR) remains constrained by detector noise, limited gain, and manufacturing challenges. While HgCdTe avalanche photodiodes can deliver excellent performance, they suffer from high cost, low yield, and limited manufacturabilit…

TS-073712 — Advanced quantum technologies, cryogenic sensors, and space instrumentation increasingly require reliable, compact cooling below 1 K. Today’s sub-Kelvin refrigeration relies heavily on dilution refrigerators and gas-gap thermal switches that are complex, slow, mechanically fragile, and dependent…

TS-073373 — Next‑generation power electronic systems require devices that deliver high breakdown voltage, large current handling, and fast switching while maintaining manufacturability at scale. Vertical FinFETs offer compelling performance advantages over incumbent bipolar and planar technologies, but thei…

TS-072841 — Modern thermal management demands fast, accurate, and spatially compact heat flux sensing to complement temperature measurements, enable real‑time control, and estimate internal temperatures without waiting for equilibrium. Conventional longitudinal thermopower sensors trade sensitivity for resp…

TS-072584 — The Need High-voltage DC (HVDC) transmission and grid-connected power conversion systems face significant cost, size, and efficiency challenges due to the large number of expensive submodules and capacitors required in conventional modular multilevel converters (MMC). These limitations restrict scal…

TS-072329 — The Need The rapid growth of artificial intelligence and neural networks is driving unprecedented demand for energy-efficient, scalable hardware. Conventional memristors require rare earths and complex fabrication, contributing to electronic waste and limiting accessibility. There is a critical need…

TS-072270 — The Need Current heat flux sensors rely on indirect temperature gradient measurements across thick materials, resulting in slow response times and limited sensitivity. There is a growing demand for compact, fast, and highly sensitive heat flux sensors for various applications. Existing technologies …

TS-071961 — The Need Despite near-perfect external quantum efficiency in blue InGaN LEDs, devices emitting green, amber, and longer visible wavelengths remain inefficient. This is due to internal electric fields and charge separation in conventional quantum wells, which worsen with higher indium content and wid…

TS-071747 — High-accuracy 3D depth perception is critical for autonomous systems, but current stereo camera methods falter in complex outdoor environments. While LiDAR can improve accuracy, its effectiveness plummets when using sparse data from affordable, lower-beam sensors, making high performance prohibiti…

TS-070970 — Many vibration-based energy harvesting systems are limited by narrow operational frequency bands, making them inefficient for environments where excitation frequencies drift, such as in bridges, machinery, or vehicles. Current solutions often sacrifice energy density to broaden bandwidth. A more e…

TS-070531 — The Need Efficient heat switches are crucial for various applications, including solid-state refrigeration, solar thermal installations, waste heat scavenging, and electronics cooling. Current technologies often suffer from irreversible thermodynamic losses or inefficiencies, limiting their effectiv…

TS-070302 — The Need Current quantum computing technologies face significant challenges in scalability, error correction, and computational efficiency. There is a critical need for a robust, scalable quantum processor that can perform complex computations with high fidelity and low error rates, enabling advance…

TS-069780 — The Need Efficient thermal management is crucial in various industries, yet current solutions often fall short in terms of performance and adaptability. There is a significant need for a technology that can effectively control heat flow in bulk materials, enhancing the efficiency of systems ranging…

TS-068473 — The Need β-Ga2O3 has spurred substantial interest in semiconductors and transistors in high-power/high-frequency electronics and ultraviolet optoelectronics. However, there exists a critical challenge of growing high-quality, thick layers of gallium oxide (Ga2O3) on Ga2O3 substrates. Existing …