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Go to Enabling Next-Generation Sustainable Computing through Novel Multi-Valued-Logic Quantum Devices
Enabling Next-Generation Sustainable Computing through Novel Multi-Valued-Logic Quantum Devices
TQT Computation

Enabling Next-Generation Sustainable Computing through Novel Multi-Valued-Logic Quantum Devices

As the demand for digital services grows, so does the need for data centres and transmission networks. Unfortunately, these data systems consume vast amounts of energy, resulting in nearly 1% of all energy-related greenhouse gas emissions. This project aims to invent novel quantum devices for highly energy-efficient computing that may help reduce the global digital […]

June 12, 2023

PI: Youngki Yoon

Skip Tags computation devices + 3 Additional

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  • Go to Enabling Next-Generation Sustainable Computing through Novel Multi-Valued-Logic Quantum Devices
Go to Micro-Supercapacitors Based on Termination Optimized MXene Quantum Dots with Ultra-High Rate Capability and Fast Frequency Response
Micro-Supercapacitors Based on Termination Optimized MXene Quantum Dots with Ultra-High Rate Capability and Fast Frequency Response

Micro-Supercapacitors Based on Termination Optimized MXene Quantum Dots with Ultra-High Rate Capability and Fast Frequency Response

Micro-supercapacitors (MCs) are miniaturized energy storage devices that can enhance the performance of wearable health devices, medical implants, wireless sensors, and micro-electromechanical systems due to their fast frequency response, long life cycle, and vast temperature operation. However, to make these MC systems into commercially feasible products, necessary improvements to current MC performance are necessary, primarily […]

June 12, 2023

PI: Aiping Yu

Skip Tags Applied Carbon Nanotechnology Lab energy + 2 Additional

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  • Go to Micro-Supercapacitors Based on Termination Optimized MXene Quantum Dots with Ultra-High Rate Capability and Fast Frequency Response

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