Stories
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Briefs: Power
In critical applications such as electric vehicles, there is a growing demand for a device that can efficiently produce both high power and high energy over a significant number of cycles.
Briefs: Energy
When it discharges, the carbon dioxide can be released in a controlled way and collected to be reused or disposed of responsibly.
Briefs: Semiconductors & ICs
Micro-supercapacitors could revolutionize the way we use batteries by increasing their lifespan and enabling extremely fast charging. Now, researchers at Chalmers University of Technology have...
Articles: Transportation
As the electrification of automobiles continues to accelerate, the need for a safe, reliable, high-power energy-storage technology is greater than ever. Ultracapacitors...
Briefs: Energy
The material improves connectivity while maintaining recyclability and low cost.
Articles: Manufacturing & Prototyping
Self-healing materials, quick disconnects, and eco-friendly micro-supercapacitors.
Briefs: Materials
This technology has potential as a portable power supply in several applications, including electric vehicles, cellphones, and wearable technology.
Technology Leaders: Energy
Learn about the properties of each capacitor option, and their ideal applications.
Articles: Electronics & Computers
A comparison of passive and active supercapacitor charging methods emphasizes the need for a close inspection on power source and supercapacitor demand.
Briefs: Materials
The energy storage device can store a charge up to 900 times greater than state-of-the-art supercapacitors.
Briefs: Electronics & Computers
These robust supercapacitors still work when stretched to eight times their original size.
Briefs: Nanotechnology
A stretchable system can harvest energy from human breathing and motion.
Briefs: Energy
This supercapacitor promises storage, high power, and fast charging.
Briefs: Wearables
Device Harvests Energy from Low-Frequency Vibrations
A wearable energy harvesting device could generate energy from the swing of an arm while walking or jogging.
Briefs: Electronics & Computers
Researchers have created highly stretchable supercapacitors for powering wearable electronics that consist of crumpled carbon nanotube (CNT) forests. The supercapacitors demonstrated solid performance and...
Briefs: Nanotechnology
Stretchable electronics, which can be stretched, deformed and wrapped onto nonplanar curved surfaces, have attracted much attraction due to their...
Briefs: Energy
Wearable biosensors for health monitoring lack a lightweight, long-lasting power supply. A new method was developed for making a charge-storing system that is easily integrated into clothing...
Briefs: Electronics & Computers
Rechargeable, High-Temperature, Molten Salt Battery
Growing demand for electric vehicles and more sustainable forms of transport means finding new forms of energy storage such as batteries, supercapacitors, and fuel cells. Currently, a major challenge facing the industry is the poor performance quality of rechargeable batteries, which often lose...
Briefs: Energy
Electrode Design Boosts Supercapacitor Performance
Supercapacitors are rechargeable energy storage devices that deliver more power for their size than similar-sized batteries. They also recharge quickly, and they last for hundreds to thousands of recharging cycles. Today, they are used in hybrid cars’ regenerative braking systems and for other...
Briefs: Energy
Researchers have developed yarns that generate electricity when they are stretched or twisted. The “twistron” yarns are constructed from carbon nanotubes — hollow cylinders of carbon...
Briefs: Mechanical & Fluid Systems
Supercapacitors can store and deliver energy faster than conventional batteries. But to realize advanced applications, supercapacitors need better electrodes, which connect the...
Briefs: Manufacturing & Prototyping
NASA's Marshall Space Flight Center has developed a solid-state ultracapacitor with a unique combination of high capacitance and battery-like discharge characteristics. The high capacitance in a...
Briefs: Materials
Process Turns Carbon Dioxide into 3D Graphene with Microporous Surface
The conversion of carbon dioxide to useful materials usually requires high energy input due to its ultrahigh stability. A heat-releasing reaction between carbon dioxide and sodium was developed to take carbon dioxide and turn it into 3D graphene with micropores across its...
Articles: Energy
This column presents technologies that have applications in commercial areas, possibly creating the products of tomorrow. To learn more about each technology, see the contact information provided for that innovation.
Briefs: Photonics/Optics
Ionic liquids—salts made by combining positively charged molecules (cations) and negatively charged molecules (anions) that are liquid at...
Articles: Materials
This column presents technologies that have applications in commercial areas, possibly creating the products of tomorrow. To learn more about each technology, see the contact information provided for that innovation.
Briefs: Automotive
High-Voltage Supercapacitors for Improved Energy Density Hybrid Power Sources
Both the aerospace and automotive industries depend increasingly on electrochemical energy storage. Reduction in mass, increase in energy, and increase in power can benefit both of these areas dramatically. Supercapacitors are currently under consideration for use in both...
Briefs: Aerospace
NASA has developed a versatile method and associated apparatus for constructing and using a conductive filament in various applications of 3D printing. It uses an attractive polymer formulation,...
Briefs: Electronics & Computers
Metal Oxide Vertical Graphene Hybrid Supercapacitors
NASA has developed a novel hybrid supercapacitor system utilizing vertical graphene as an electrode material grown directly on collector metals using a plasma enhanced chemical vapor de - position. Supercapacitors are an alternative to batteries for energy storage, offering high power density and...
Top Stories
INSIDER: Sensors/Data Acquisition
Smallest Walking Robot Makes Microscale Measurements
INSIDER: Data Acquisition
Soft, Bioelectronic Sensor Implant
Blog: Design
Transporting Electricity Through Air via Ultrasonic Waves
Blog: Power
Transmitting Power Through the Body
INSIDER: Electronics & Computers
MIT Engineers Grow “High-Rise” 3D Chips
Briefs: Physical Sciences
Webcasts
Upcoming Webinars: Automotive
Leveraging Simulation for Net Zero Emissions in Conventional and...
Upcoming Webinars: Manufacturing & Prototyping
Quickly Prototyping Custom Textures on Automotive Parts
Upcoming Webinars: AR/AI
How to Leverage AI-Powered Smart Automation for Design and...
Upcoming Webinars: Unmanned Systems
March 2025 Automated and Connected Vehicles Digital Summit
Upcoming Webinars: Defense
A Guide to Electric Aircraft Systems Sizing: ePowertrain, TMS,...
Upcoming Webinars: Defense
Advancements in Pulsating Heat Pipes: Analysis and Applications...
