Journal of Physical Chemistry C
Journal of Physical Chemistry C
5 years ago

Toward Tunable CO Adsorption on Defected Graphene: The Chemical Role of Ni(111) and Cu(111) Substrates

Toward Tunable CO Adsorption on Defected Graphene: The Chemical Role of Ni(111) and Cu(111) Substrates
Pier Luigi Silvestrelli, Alberto Ambrosetti
Fine-tuning the electronic and chemical properties of graphene is currently one of the main goals in chemical physics. While pristine graphene is chemically inert, point-like defects such as small vacancies or substitutional atoms can substantially alter the local chemical environment, modifying graphene reactivity upon gas adsorption. Here we investigate from first-principles the effect of Cu(111) and Ni(111) substrates on graphene mono- and divacancies, revealing that transition-metal substrates can significantly contribute to both nonlocal dispersion forces and to the local reactivity. Nonsaturated carbons can strongly interact with the underlying metal atom, which—despite the substantial interlayer distance—protrudes from the (111) plane, binding to the vacancy. This mechanism can hinder chemical adsorption, with an effect that crucially depends on the actual metal substrate. We also find extremely low activation barriers for CO chemisorption on Ni(111)-supported graphene with divacancies, which we compare to recent experimental observations. The nontrivial role of transition metal substrates evidenced in our work suggests new pathways for fine-tuning the chemical properties of small vacancies, favoring many possible applications from defect healing and gas sensing to surface catalysis.

Publisher URL: http://dx.doi.org/10.1021/acs.jpcc.7b06243

DOI: 10.1021/acs.jpcc.7b06243

You might also like
Discover & Discuss Important Research

Keeping up-to-date with research can feel impossible, with papers being published faster than you'll ever be able to read them. That's where Researcher comes in: we're simplifying discovery and making important discussions happen. With over 19,000 sources, including peer-reviewed journals, preprints, blogs, universities, podcasts and Live events across 10 research areas, you'll never miss what's important to you. It's like social media, but better. Oh, and we should mention - it's free.

  • Download from Google Play
  • Download from App Store
  • Download from AppInChina

Researcher displays publicly available abstracts and doesn’t host any full article content. If the content is open access, we will direct clicks from the abstracts to the publisher website and display the PDF copy on our platform. Clicks to view the full text will be directed to the publisher website, where only users with subscriptions or access through their institution are able to view the full article.