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C-Bond Systems’ CEO Scott R. Silverman and World-Renowned Chemist and Nanotechnology Expert .
C-Bond SystemsFebruary 3, 2021 GMT
HOUSTON, Feb. 03, 2021 (GLOBE NEWSWIRE) C-Bond Systems (the “Company” or “C-Bond”) (OTC: CBNT), a nanotechnology solutions company, today announced that it will hold an investor call on February 10, 2021 at 10:30 am EST, to announce a significant technology development initiative. C-Bond’s CEO, Scott R. Silverman, will be joined on the call by Professor Andrew R. Barron, a world-renowned chemist and nanotechnology expert who is leading the initiative.
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Professor Barron is the founder and director of the Energy Safety Research Institute ( ESRI ) at Swansea University in the United Kingdom and the Sêr Cymru Chair of Low Carbon Energy and Environment. Educated at Imperial College (London), Professor Barron has held posts at Rice Univ
Home / Top News / C-Bond Systems’ CEO Scott R. Silverman and World-Renowned Chemist and Nanotechnology Expert Professor Andrew R. Barron to Hold Investor Call on February 10th to Announce Significant Technology Development Initiative
C-Bond Systems’ CEO Scott R. Silverman and World-Renowned Chemist and Nanotechnology Expert Professor Andrew R. Barron to Hold Investor Call on February 10th to Announce Significant Technology Development Initiative
Professor Barron is the Founder of the Energy Safety Research Institute at Swansea University in the UK
HOUSTON, Feb. 03, 2021 (GLOBE NEWSWIRE) C-Bond Systems (the “Company” or “C-Bond”) (OTC: CBNT), a nanotechnology solutions company, today announced that it will hold an investor call on February 10, 2021 at 10:30 am EST, to announce a significant technology development initiative. C-Bond’s CEO, Scott R. Silverman, will be joined on the call by Professor Andrew R. Barron, a world-renowned chemist and nanotechnology expert
Elements of the open world Technology The Group’s Velvet2030 system is currently being piloted at London Heathrow Airport
With the COVID-19 vaccination program well underway in the UK and other countries around the world, TOWTG – part of SIA Holdings – said companies now need to build trust and plan for workers’ return to their workplace and for when consumers start traveling in large numbers again.
Saad Audeh: “It is of the utmost importance that companies make their environment future-proof to make it as clean, safe and healthy as possible in order to maximize trust in employees and customers”
In addition to airports, TOWTG has targeted its solution – with the very latest nanotechnology – in areas with high traffic, including hospitals, train stations, catering establishments, offices, schools and universities, to ensure that these environments are permanently clean and healthy.
The spheres are formed at 800°C. By Trevor English Dec 30, 2020
Carbon capture technology allows the re-capturing of carbon from the air as well as the collection of carbon from various emissions sources. One of the most vital components of this process is the production of carbon-capturing spheres. These spheres function by capturing carbon from the air and converting the CO2 into solids. This allows the CO2 to easily be stored and kept from polluting the atmosphere in a gaseous form.
Researchers at Swansea University have developed a new way to produce these carbon spheres that can be scaled effectively.
Carbon spheres in their own right range in size dramatically. They can be anywhere from a few nanometers to a few micrometers and are commonly used in many environmental treatment processes like water treatment, gas storage, and even drug delivery.
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Carbon spheres - small spherical structures that have found large applications in carbon capture and energy storage - can now be created faster and more sustainably in a novel technique developed by researchers.
A team from Swansea University in the United Kingdom has devised a way for fast, green, and one-step production of porous carbon spheres. Additionally, spheres produced from this method supposedly have good carbon capture capacities and retain efficiency even at larger scales.
The new technique is built upon and significantly improves on the chemical vapor deposition - a commonly-used technique in fabricating 2D nanomaterials, as well as carbon spheres. The Swansea University team published their report in the journal Carbon, included in its Volume 171, January 2021 issue.