Update Domain: Engineering Research

New engineering projects are exploring innovative extreme heat solutions, focusing on low-cost personal cooling and emissions-free air conditioning to address climate challenges.

New 3D printed devices are set to streamline the production of drug-delivery microparticles. These cost-effective tools leverage electrospray technology, offering efficient manufacturing for medical applications.

New research shows how nanoscale heat transfer can be supercharged using gold metamaterials, leading to more efficient cooling and energy systems.

New research shows how a thin diamond layer can significantly improve diamond high-power electronics. This method helps manage excessive heat, boosting the speed and energy efficiency of future wireless devices and other high-performance systems.

An MIT spinoff developed an innovative MIT real-time tracking system for products. Leveraging university tech, it applies to retail, manufacturing, logistics, and robotics, offering new engineering project possibilities.

Scientists have found that precise nanometer metal control, by adjusting film thickness, can profoundly change electronic behavior. This breakthrough could impact future electronics, catalysis, and quantum technology development.

A significant engineering breakthrough sees the development of a chip-scale ultrafast laser, offering performance comparable to much larger, traditional systems. This innovation promises wider accessibility for advanced laser applications.

MIT researchers are pioneering innovative carbon capture methods, presenting a promising new approach to efficient and flexible carbon removal. This development could reshape environmental engineering solutions.

New research demonstrates that ordinary WiFi signals can be used for WiFi human identification, allowing recognition of individuals even without devices. This breakthrough has implications for various applications.

A new miniature AI spectrometer chip from UC Davis is revolutionizing chemical analysis. This tiny device combines smart silicon sensors with machine learning, bringing lab-style spectral analysis to a compact, portable form factor.