Innovation Toronto
Now Reading
Boston College (BC)
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

Boston College (BC)

May 2, 2019

Boston College (BC) is a private Jesuit Catholic research university located in the village of Chestnut Hill, Massachusetts, USA

A new synaptic transistor is capable of higher-level thinking mimics human intelligence

A new synaptic transistor is capable of higher-level thinking mimics human intelligence

Converting lignin into sustainable plastics that can be readily recycled through chemical means

Converting lignin into sustainable plastics that can be readily recycled through chemical means

Opening the door to entirely replace precious metals to produce hydrogen

Opening the door to entirely replace precious metals to produce hydrogen

Lab-grown meat turns over a new leaf

Lab-grown meat turns over a new leaf

Semiconductors that are as thin as an atom are no longer the stuff of science fiction – bye bye graphene?

A two-dimensional material developed by Bayreuth physicist Prof. Dr. Axel Enders together with international partners could revolutionize electronics. Semiconductors that are as thin as an atom are no longer the stuff of science fiction. Bayreuth physicist Prof. Dr. Axel Enders, together with partners in Poland and the US, has developed a two-dimensional material that could

Semiconductors that are as thin as an atom are no longer the stuff of science fiction – bye bye graphene?

A Clean Energy Harvest Using Two of the Most Abundant Materials on Earth

‘This unassisted water splitting, which is very rare, does not require expensive or scarce resources.’ Team reports first ‘unassisted’ water splitting using only hematite and silicon as solar absorbers, Finding an efficient solar water splitting method to mine electron-rich hydrogen for clean power has been thwarted by the poor performance of hematite. But by ‘re-growing’

A Clean Energy Harvest Using Two of the Most Abundant Materials on Earth

Researchers find rust can power up artificial photosynthesis

Boston College chemists produce power boost critical to novel energy harvesting applications Chemists at Boston College have achieved a series of breakthroughs in their efforts to develop an economical means of harnessing artificial photosynthesis by narrowing the voltage gap between the two crucial processes of oxidation and reduction, according to their latest research, published this

Researchers find rust can power up artificial photosynthesis

Research Creates New Opportunities From Waste Heat

UH PHYSICISTS FIND A COMPOUND TO MORE EFFICIENTLY CONVERT WASTE HEAT TO ELECTRICAL POWER Physicists at the University of Houston’s physics department and the Texas Center for Superconductivity are working on an innovation that could boost vehicle  mileage by 5 percent and power plant and industrial processing performance as much as 10 percent. Their research

Research Creates New Opportunities From Waste Heat

A new form of carbon: Grossly warped ‘nanographene’

Graphene has been highly touted as a revolutionary material for nanoscale electronics. Bucking planarity, contorted sheets of graphene alter physical, optical and electronic properties of new material Chemists at Boston College and Nagoya University in Japan have synthesized the first example of a new form of carbon, the team reports in the most recent online

A new form of carbon: Grossly warped ‘nanographene’

An unlikely competitor for diamond as the best thermal conductor

Boron arsenide may be of potential interest for cooling applications An unlikely material, cubic boron arsenide, could deliver an extraordinarily high thermal conductivity – on par with the industry standard set by costly diamond – researchers report in the current issue of the journal Physical Review Letters. The discovery that the chemical compound of boron and

An unlikely competitor for diamond as the best thermal conductor

Photosynthesis Re-Wired: Chemists Use Nanowires to Power Photosynthesis-Like Process

“If we can start to use carbon dioxide and light to power reactions in organic chemistry, there’s a huge benefit to that” Harnessing the power of the sun has inspired scientists and engineers to look for ways to turn sunlight into clean energy to heat houses, fuel factories and power devices. While a majority of

Photosynthesis Re-Wired: Chemists Use Nanowires to Power Photosynthesis-Like Process

A Computer Per Student Leads to Higher Performance Than Traditional Classroom Settings

Image via Wikipedia A dozen years into the “1 to 1” computing movement’s push to pair every schoolchild and teacher with a laptop, studies show the students in these programs outperformed their peers in traditional classrooms, according to researchers. Students who have participated in 1:1 computing report higher achievement and increased engagement, according to findings

A Computer Per Student Leads to Higher Performance Than Traditional Classroom Settings

The Latest Bing News on:
Boston College (BC) Research
The Latest Bing News on:
Boston College (BC) Discovery
Tags
BC
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