Innovation Toronto Innovation Toronto

.

Everything starts with an idea . . .

  • About Us
    • Privacy Policy
  • List of Institutions
  • Institution Updates
  • 1MM to 3MM Visitors
    • 2MM to 3MM Visitors
    • 1MM to 2MM Visits
  • 100k to 1MM Visitors
    • 500k to 1MM Visitors
    • 300k to 500k Visitors
    • 200k to 300k Visits
    • 100k to 200k Visits
  • Up to 100k Visitors
    • 50k to 100k Visits
    • 25K to 50K Visits
    • 10k to 25k Visits
    • Under 10k Visits
Menu
  • About Us
    • Privacy Policy
  • List of Institutions
  • Institution Updates
  • 1MM to 3MM Visitors
    • 2MM to 3MM Visitors
    • 1MM to 2MM Visits
  • 100k to 1MM Visitors
    • 500k to 1MM Visitors
    • 300k to 500k Visitors
    • 200k to 300k Visits
    • 100k to 200k Visits
  • Up to 100k Visitors
    • 50k to 100k Visits
    • 25K to 50K Visits
    • 10k to 25k Visits
    • Under 10k Visits
loading...
The Latest
  • Opening and closing the blood-nerve barrier for the first time to deliver drugs
  • Producing chemicals without the harmful byproducts and large energy demands of current manufacturing techniques
  • Using a smartphone camera to detect and diagnose medical conditions with an AI-driven mobile health algorithm
  • Color-changing materials indicate when drugs or food gets too warm
  • A high-performance elastocaloric cooling system that could represent the next generation of climate friendly AC
  • Could a new superlubricity coating reduce economic losses of 1 trillion dollars from friction and wear?
  • AI clones made from user data pose uncanny risks
  • Is AI capable of predicting someone’s emotional response to events before they occur – today?
  • A smart sensor ring for health care and extended reality
  • Could Greenlandic glacial rock flour really help to stop climate change?
Home wearable electronics

An ultrathin film that is both transparent and highly conductive produced at supersonic speed

An ultrathin film that is both transparent and highly conductive produced at supersonic speed

A new, ultrathin film that is both transparent and highly conductive to electric current has been produced by a cheap and simple method devised by an international team of nanomaterials rese... Read more

Share 0
Tweet
Share
Share

Fast, stretchy circuits could yield new wave of connected wearable electronics

Fast, stretchy circuits could yield new wave of connected wearable electronics

The consumer marketplace is flooded with a lively assortment of smart wearable electronics that do everything from monitor vital signs, fitness or sun exposure to play music, charge other el... Read more

Share 0
Tweet
Share
Share

Ultrathin organic material enhances e-skin display and could eventually eliminate the need to carry electronic devices

Ultrathin organic material enhances e-skin display and could eventually eliminate the need to carry electronic devices

University of Tokyo researchers have developed an ultrathin, ultraflexible, protective layer and demonstrated its use by creating an air-stable, organic light-emitting diode (OLED) display.... Read more

Share 0
Tweet
Share
Share

Computers in your clothes? A milestone for wearable electronics

Computers in your clothes? A milestone for wearable electronics

Clothes that receive and transmit digital information are closer to reality Researchers who are working to develop wearable electronics have reached a milestone: They are able to embroider c... Read more

Share 0
Tweet
Share
Share

CWRU researchers tailor flexible microsupercapacitors for wearable electronics

CWRU researchers tailor flexible microsupercapacitors for wearable electronics

Wearable power sources for wearable electronics are limited by the size of garments. With that in mind, researchers at Case Western Reserve University have developed flexible wire-shaped mic... Read more

Share 0
Tweet
Share
Share

Printable Solid-State Lithium-Ion Batteries

Printable Solid-State Lithium-Ion Batteries

A New Route toward Shape-Conformable Power Sources with Aesthetic Versatility for Flexible Electronics Forthcoming flexible/wearable electronic devices with shape diversity and mobile usabil... Read more

Share 0
Tweet
Share
Share

Printing Silicon on Paper, with Lasers

Printing Silicon on Paper, with Lasers

A new fabrication technique may allow the gold standard for transistors to outcompete its recent ultra-thin substitutes In seeking to develop the next generation of micro-electronic transist... Read more

Share 0
Tweet
Share
Share

Elastic, Flexible Piezoelectric Energy Harvester for Stretchable Electronics

Elastic, Flexible Piezoelectric Energy Harvester for Stretchable Electronics

A research team led by Professor Keon Jae Lee of the Department of Materials Science and Engineering at the Korea Advanced Institute of Science and Technology (KAIST) has developed a hyper-s... Read more

Share 0
Tweet
Share
Share

New light-weight power generator for wearable electronics

New light-weight power generator for wearable electronics

“We expect that this technology will find further applications in scale-up systems such as automobiles, factories, aircrafts, and vessels where we see abundant thermal energy being was... Read more

Share 0
Tweet
Share
Share

Edison-powered Mimo Baby Monitor ushers in the Internet of Things

Edison-powered Mimo Baby Monitor ushers in the Internet of Things

The Mimo Baby Monitor puts anxious parents at ease by providing them with a constant stream of data about their little sweetheart. The sensors embedded in an infant bodysuite, called the Kim... Read more

Share 0
Tweet
Share
Share

Solar-powered battery woven into fabric overcomes hurdle for ‘wearable electronics’

Solar-powered battery woven into fabric overcomes hurdle for ‘wearable electronics’

This novel battery development could usher in a new era of “wearable electronics” “Wearable Textile Battery Rechargeable by Solar Energy” Though some people already seem insepara... Read more

Share 0
Tweet
Share
Share

Scientists create tiny bendy power supply for even smaller portable electronics

Scientists create tiny bendy power supply for even smaller portable electronics

Scientists have created a powerful micro-supercapacitor, just nanometres thick, that could help electronics companies develop mobile phones and cameras that are smaller, lighter and thinner... Read more

Share 0
Tweet
Share
Share

Printing silver onto fibers could pave the way for flexible, wearable electronics

Printing silver onto fibers could pave the way for flexible, wearable electronics

A new technique for depositing silver onto clothing fibres could open up huge opportunities in wearable electronics. Scientists at the National Physical Laboratory (NPL), the UK’s Nati... Read more

Share 0
Tweet
Share
Share

Breakthrough Material Could Turn Your T-Shirt Into A Touchscreen Panel

Breakthrough Material Could Turn Your T-Shirt Into A Touchscreen Panel

GraphExeter could revolutionize the electronics industry A team of researchers from the University of Exeter have created a revolutionary material adapted from graphene. The innovation calle... Read more

Share 0
Tweet
Share
Share

Carbon nanotubes used to make batteries from fabrics

Carbon nanotubes used to make batteries from fabrics

Image via Wikipedia Ordinary cotton and polyester fabrics have been turned into batteries that retain their flexibility. The demonstration is a boost to the nascent field of “wearable... Read more

Share 0
Tweet
Share
Share
123

Most Visited Today

Most Visited This Week

Most Visited This Month

Featured Today . . .

Fraunhofer Society

Read More
on 18 May 2019
load more
The Latest University & Research Institutions Updated . . .

University of Pennsylvania

CUNY Graduate Center

Purdue University

Chinese Academy of Sciences (CAS)

load more

Copyright 2023. Created by Innovation Toronto

Desktop Version Mobile Version