1. Scientists at Lawrence Berkeley National Laboratory and UC Berkeley have developed 'microcapacitors' with up to 170x the power density of current capacitors. 2. These microcapacitors integrate energy storage directly into microchips, significantly reducing energy loss during power transfer. 3. The use of negative capacitance materials in HfO2-ZrO2 thin films enables these capacitors to store significantly more energy than conventional ones.
Related Articles
- What's Happening in My Laser Process? Making the Invisible Visible with Synchrotron Radiation5 months ago
- What is happening in my laser process? Making the invisible visible with synchrotron radiation5 months ago
- Major Advancement in Applied Research: FMD Launches the Chiplet Application Hub5 months ago
- Bellezza process could replace copper with graphene in ICs5 months ago
- Intel's board gets industry-focused as three directors will not seek re-election — badly needed shift to deeper tech experience5 months ago
- NMI hosts industry conference in Glasgow with theme of growth6 months ago
- Amazon's Ocelot quantum chip uses 'cat qubits' to 'reduce error correction by up to 90%'6 months ago
- Sivers Semi gets Chips Act award8 months ago
- VLSI Learning Courses8 months ago
- GlobalWafers inks $406 million CHIPS Act deal to make 300mm wafers in the U.S.9 months ago