University of Wisconsin-Madison

University of Wisconsin-Madison

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The technology was conceived at the University of Wisconsin-Madison lab for advanced materials for energy and electronics under the direction of Professor Michael Arnold. The impact of nanomaterials on society has often been limited because it is difficult to synthesize, purity, process, organize, and integrate nanomaterials and nanostructures. Our research especially draws from multiple disciplines to address fundamental materials challenges - in controlling the growth, processing, ordering, and heterogeneity of nanomaterials and in understanding phenomena beyond the scale of single nanostructures - that must be overcome to exploit these exciting components in technology.
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University of Wisconsin-Madison
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2020
26 Nov 2020

Graphene Market & 2D Materials Assessment 2021-2031

IDTechEx Report: Dr Richard Collins
19 Nov 2020

Fluoropolymer Markets in Electrics, Electronics 2021-2041

IDTechEx Report: Dr Peter Harrop and Dr James Edmondson
26 Aug 2020

Machine Learning Reduces Hazards in Nuclear Power Plants

The application of machine learning with simulation data will provide additional possibilities for field engineers to more accurately assess the hazards for their specific plant. Field conditions are typically not the same as data set conditions. Machine learning models developed in this research will be able to rapidly translate what the appropriate hazard event conditions are for the given field conditions.
23 Jul 2020

3D Hand-Sensing Wristband

In a potential breakthrough in wearable sensing technology, researchers have designed a wrist-mounted device that continuously tracks the entire human hand in 3D.
16 Jul 2020

Merging Solar Cell, Liquid Battery Produces Long-Lasting Solar Storage

Chemists have created a highly efficient and long-lasting solar flow battery, a way to generate, store and redeliver renewable electricity from the sun in one device.
30 Jun 2020

Critical Communications Component Made on a Flexible Wooden Film

In the not-too-distant future, flexible electronics will open the door to new products like foldable phones, tablets that can be rolled, paper-thin displays and wearable sensors that monitor health data. Developing these new bendy products, however, means using materials like new plastics and thin films to replace the rigid circuit boards and bulky electronic components that currently occupy the interiors of cell phones and other gadgets.
10 Jun 2020

Energy Harvesting Microwatt to Gigawatt: Opportunities 2020-2040

IDTechEx Report: Dr Peter Harrop and Dr Xiaoxi He
8 Jun 2020

Printed and Flexible Sensors 2020-2030: Technologies, Players, Forecasts

IDTechEx Report: Dr Matthew Dyson, James Hayward and Raghu Das
1 Jun 2020

Bionic Eye that Works Like the Real One

A research team has developed an artificial visual system that uses a spherical biomimetic electrochemical eye with hemispherical retina made of a high-density perovskite nanowire array.
27 Apr 2020

Energy Harvesting for Electronic Devices 2020-2040

IDTechEx Report: Dr Peter Harrop, Dr Xiaoxi He and Raghu Das
24 Apr 2020

Remote Control of Soft Robots

Soft materials, such as rubber or polymers that can endure drastic changes to their shape, are promising for applications where flexibility and shapeshifting abilities are paramount. For example, these materials can be used to create soft robots suited for specialized tasks, ranging from medical devices that could navigate around inside the body to robots for search-and-rescue missions that can squeeze through small openings.
17 Apr 2020

Flexible Hybrid Electronics 2020-2030: Applications, Challenges, Innovations and Forecasts

IDTechEx Report: Dr Matthew Dyson
30 Mar 2020

New Sensor Could Help Prevent Food Waste

As flowers bloom and fruits ripen, they emit a colorless, sweet-smelling gas called ethylene. Chemists have now created a tiny sensor that can detect this gas in concentrations as low as 15 parts per billion, which they believe could be useful in preventing food spoilage.
19 Mar 2020

Smart Wound Healing Patch: DARPA Awards $22 Million Grant

Neuroengineers and bioengineers are part of a national team that's developing "smart" technology that combines artificial intelligence, bioelectronics and regenerative medicine to regrow muscle tissue for wounded soldiers.
9 Mar 2020

Triboelectric Energy Harvesting and Sensing (TENG) 2020-2040

IDTechEx Report: Dr Peter Harrop
5 Mar 2020

SysteMECH

SysteMECH have developed a direct die-placement technology to attach thin dies (unpackaged ICs) to flexible substrates. This promises to avoid the damage that can occur to bare dies using typical pick-and-place methods and increase yields.
10 Feb 2020

Engineers Mix and Match Materials to Make New Stretchy Electronics

At the heart of any electronic device is a cold, hard computer chip, covered in a miniature city of transistors and other semiconducting elements. Because computer chips are rigid, the electronic devices that they power, such as our smartphones, laptops, watches, and televisions, are similarly inflexible. Now a process developed by engineers may be the key to manufacturing flexible electronics with multiple functionalities in a cost-effective way.
2019
29 Nov 2019

Electric Vehicle Motor Manufacturers and Developers: 255 Analysed and Assessed

IDTechEx Report: Dr Peter Harrop
14 Nov 2019

Injectable, Flexible Electrode for Nerve-Stimulating Implants

By electrically stimulating nerves, neuromodulation therapies can reduce epileptic seizures, soothe chronic pain, and treat depression and a host of other health conditions without the use of conventional drugs like opioids.
29 Oct 2019

Smart Materials Opportunities in Structural Electronics and Electrics 2020-2030

IDTechEx Report: Dr Peter Harrop and Raghu Das