Summary
A template methodology for synthesis of B-doped graphene-like carbon nanomaterial (B-graphene-like carbon) with excessive floor space has been developed. On this methodology, magnesium oxide is used as a template the place a carbon layer doped with boron atoms is deposited. Magnesium oxide carbonization was carried out in an autoclave at 600 °C and 5 atm stress utilizing phenylboronic acid (FBA) dissolved in an ethanol-acetone combination. Then, magnesium oxide from the С—B/MgO composite was dissolved in hydrochloric acid. The obtained B- graphene-like carbon was studied by IR spectroscopy, electron microscopy, XPS strategies and quantum chemical calculations. B-graphene-like carbon comprises 3–6 carbon layers and 0.2 wt% B. Construction of carbon web with embedded boron fragment has been proposed as the results of carried out research.
Graphical Summary
Reprints and Company Permissions
Please observe: Deciding on permissions doesn’t present entry to the complete textual content of the article, please see our assist web page
How do I view content material?
To request a reprint or company permissions for this text, please click on on the related hyperlink beneath:
Educational Permissions
Please observe: Deciding on permissions doesn’t present entry to the complete textual content of the article, please see our assist web page How do I view content material?
Receive permissions immediately through Rightslink by clicking on the button beneath:
In case you are unable to acquire permissions through Rightslink, please full and submit this Permissions kind. For extra info, please go to our Permissions assist web page.
