अमूर्त

Theoretical study of the effects of structure and localization of the ð electron clouds of single-walled carbon nanotubes on the ð-ð stacking interactions

Pouya Karimi, Mahmoud Sanchooli


An armchair (4,4) graphene sheet has been rolled up to build single-walled carbon nanotube fragments (SWCNTFs) by computational quantumchemistry methods. Noncovalent ð-ð stacking interactions of the benzene molecule with the central rings of SWCNTFs have been investigated. The binding energies of the ð-ð stacked benzene-SWCNTF complexes versus R (true strain parameter) change in three brands. Structural parameters, electron charge density values at the bond and ring critical points of all SWCNTFs and ð-ð stacked complexes were studied.Also, effects of aromaticity and charge transfer (CT) on the binding energies were gauged. Results indicate that partially localization of the ð electron clouds of SWCNTFs enhances strength of the ð-ð stacking interactions in some cases. Thus, changing the ð electron clouds of SWCNTs improves noncovalent functionalization of these materials through the ð-ð stacking interactions, which has an important role in biomedical applications such as in cancer therapy.


अस्वीकृति: इस सारांश का अनुवाद कृत्रिम बुद्धिमत्ता उपकरणों का उपयोग करके किया गया है और इसे अभी तक समीक्षा या सत्यापित नहीं किया गया है।

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  • कैस
  • गूगल ज्ञानी
  • जे गेट खोलो
  • चीन राष्ट्रीय ज्ञान अवसंरचना (सीएनकेआई)
  • उद्धरण कारक
  • ब्रह्मांड IF
  • मियार
  • गुप्त खोज इंजन लैब्स
  • यूरो पब
  • यूनिवर्सिटैट डी बार्सिलोना
  • आईसीएमजेई

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