Innovation Toronto
Now Reading
Tokyo University of Science
Innovation Toronto
Dark Light
  • Follow
Subscribe
Innovation Toronto
This unassuming material is capable of capturing or releasing carbon dioxide from the atmosphere in response to moisture swings.
Pulling carbon dioxide out of the air using moisture
A more efficient way to capture fresh water from the air
Bringing transformative potential to agriculture with a natural technology for ‘dimming’ genes
Staving off coral reef collapse via a new technique
Producing energy from evaporating tap or seawater with new nanoscale devices
Setting the stage for regenerative therapy by turning skin cells into limb cells

Tokyo University of Science

May 4, 2019

Tokyo University of Science is a private research university located in Shinjuku, Tokyo, Japan

Revolutionizing the semiconductor industry with a new form of silicon

Revolutionizing the semiconductor industry with a new form of silicon

A simple and sustainable way to produce hydrogen peroxide from tea and coffee residue

A simple and sustainable way to produce hydrogen peroxide from tea and coffee residue

A drug duo that may cure COVID-19 altogether?

A drug duo that may cure COVID-19 altogether?

New modified stem cells can deliver large quantities of drugs specifically to tumor cells

New modified stem cells can deliver large quantities of drugs specifically to tumor cells

Solving the lithium conundrum: A hard carbon electrode with enormously high sodium storage capacity

Solving the lithium conundrum: A hard carbon electrode with enormously high sodium storage capacity

Could lasers be used to zap the amyloid plaques present in Alzheimer’s and other neurodegenerative diseases?

Could lasers be used to zap the amyloid plaques present in Alzheimer’s and other neurodegenerative diseases?

Could oxytocin be a new therapeutic option for cognitive disorders such as Alzheimer’s disease?

Could oxytocin be a new therapeutic option for cognitive disorders such as Alzheimer’s disease?

A lab-on-a-chip device that can tell blood type within five minutes could save lives

A lab-on-a-chip device that can tell blood type within five minutes could save lives

New single sign-on system cryptographic scheme completely hides your personal information

New single sign-on system cryptographic scheme completely hides your personal information

Converting cellulose to biofuel using a new efficient laser technique

Converting cellulose to biofuel using a new efficient laser technique

Boosting hydrogen production by 25 times with a little help from: rust

Boosting hydrogen production by 25 times with a little help from: rust

Cracking the code to regenerate plant tissues

Can epigenetics help us grow food more efficiently and combat global hunger? Plant regeneration can occur via formation of a mass of pluripotent cells. The process of acquisition of pluripotency involves silencing of genes to remove original tissue memory and priming for activation by external input. Led by Professor Sachihiro Matsunaga from Tokyo University of

Cracking the code to regenerate plant tissues

New compound switches between liquid and solid states when exposed to light or heat

A research group led by Professor MOCHIDA Tomoyuki (Kobe University Graduate School of Science) and Dr. FUNASAKO Yusuke (Tokyo University of Science, Yamaguchi) has developed a metal-containing compound which transforms into a solid when exposed to light and returns to liquid form when heated. This substance could potentially be used for photolithography technology, such as

New compound switches between liquid and solid states when exposed to light or heat

An electric motor that does not need expensive rare-earth magnets

The idea behind it is over 100 years old DYSPROSIUM and neodymium are not exactly the best-known elements in the periodic table, but for makers of high-end electric motors they have become vital. Both are strongly magnetic and thus crucial to the construction of powerful motors of the sort used, for example, in electric cars.

An electric motor that does not need expensive rare-earth magnets

The battery of the future might run on sugar

It seems that sugar may be the missing ingredient for building rechargeable batteries that are more robust, cheaper, and capable of storing more energy. Researchers at the Tokyo University of Science have turned to sugar as part of a continuous effort to control Japan’s growing import costs associated with building lithium-ion batteries. Lithium-ion batteries are

The battery of the future might run on sugar

Wearable Exoskeleton Can Help Users Carry Heavy Items With Ease

Designed specifically for tasks that require heavy lifting, such as commerce or nursing Researchers from the Tokyo University of Science in Japan are now developing a light exoskeleton concept that can carry items as heavy as 40 kilograms with little to no difficulty. Created by professor Hiroshi Kobayashi and his team of experts, the exoskeleton is affixed

Wearable Exoskeleton Can Help Users Carry Heavy Items With Ease

The Latest Bing News on:
Tokyo University of Science Research
The Latest Bing News on:
Tokyo University of Science Discovery
Tags
TUS
What's Your Reaction?
Don't Like it!
0
I Like it!
0
View Comments (0)

Leave a Reply

Your email address will not be published.

This site uses Akismet to reduce spam. Learn how your comment data is processed.

Scroll To Top