Diaphite, a new type of surface with mixed sp                         2                         -sp                         3                          hybridization for adsorption and functionalization

Lukasz Radosinski; Filip Formalik; Adam Olejniczak; Andrzej Radosz

doi:10.1016/j.apsusc.2017.01.085

Diaphite, a new type of surface with mixed sp ² -sp ³ hybridization for adsorption and functionalization

Lukasz Radosinski^*, Filip Formalik, Adam Olejniczak, Andrzej Radosz

^*Corresponding author for this work

Chemical and Biological Engineering

Research output: Contribution to journal › Article › peer-review

6 Scopus citations

Abstract

We theoretically study a new carbon phase with mixed sp ² -sp ³ bond hybridization called diaphite. Using ab initio calculations and the adaptive intermolecular reactive bond order (AIREBO) potential approach, we show that the surface of this structure exhibits enhanced adsorption capabilities. Specifically, using hydrogen as a test adsorbate, we calculate that the chemical binding energy, depending on the configuration of hydrogen atoms, varies from 2.08 to 2.9 eV. Furthermore, the adsorption sites form a regular matrix; thus, we postulate that this new stable carbon phase may be a universal matrix for functionalization.

Original language	English (US)
Pages (from-to)	154-161
Number of pages	8
Journal	Applied Surface Science
Volume	404
DOIs	https://doi.org/10.1016/j.apsusc.2017.01.085
State	Published - May 15 2017

Keywords

Adsorption
AIREBO
Functionalization
Multilayer graphene

ASJC Scopus subject areas

General Chemistry
Condensed Matter Physics
General Physics and Astronomy
Surfaces and Interfaces
Surfaces, Coatings and Films

Access to Document

10.1016/j.apsusc.2017.01.085

Cite this

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title = "Diaphite, a new type of surface with mixed sp 2 -sp 3 hybridization for adsorption and functionalization",

abstract = " We theoretically study a new carbon phase with mixed sp 2 -sp 3 bond hybridization called diaphite. Using ab initio calculations and the adaptive intermolecular reactive bond order (AIREBO) potential approach, we show that the surface of this structure exhibits enhanced adsorption capabilities. Specifically, using hydrogen as a test adsorbate, we calculate that the chemical binding energy, depending on the configuration of hydrogen atoms, varies from 2.08 to 2.9 eV. Furthermore, the adsorption sites form a regular matrix; thus, we postulate that this new stable carbon phase may be a universal matrix for functionalization.",

keywords = "Adsorption, AIREBO, Functionalization, Multilayer graphene",

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Diaphite, a new type of surface with mixed sp ² -sp ³ hybridization for adsorption and functionalization. / Radosinski, Lukasz; Formalik, Filip; Olejniczak, Adam et al.
In: Applied Surface Science, Vol. 404, 15.05.2017, p. 154-161.

Research output: Contribution to journal › Article › peer-review

TY - JOUR

T1 - Diaphite, a new type of surface with mixed sp 2 -sp 3 hybridization for adsorption and functionalization

AU - Radosinski, Lukasz

AU - Formalik, Filip

AU - Olejniczak, Adam

AU - Radosz, Andrzej

PY - 2017/5/15

Y1 - 2017/5/15

N2 - We theoretically study a new carbon phase with mixed sp 2 -sp 3 bond hybridization called diaphite. Using ab initio calculations and the adaptive intermolecular reactive bond order (AIREBO) potential approach, we show that the surface of this structure exhibits enhanced adsorption capabilities. Specifically, using hydrogen as a test adsorbate, we calculate that the chemical binding energy, depending on the configuration of hydrogen atoms, varies from 2.08 to 2.9 eV. Furthermore, the adsorption sites form a regular matrix; thus, we postulate that this new stable carbon phase may be a universal matrix for functionalization.

AB - We theoretically study a new carbon phase with mixed sp 2 -sp 3 bond hybridization called diaphite. Using ab initio calculations and the adaptive intermolecular reactive bond order (AIREBO) potential approach, we show that the surface of this structure exhibits enhanced adsorption capabilities. Specifically, using hydrogen as a test adsorbate, we calculate that the chemical binding energy, depending on the configuration of hydrogen atoms, varies from 2.08 to 2.9 eV. Furthermore, the adsorption sites form a regular matrix; thus, we postulate that this new stable carbon phase may be a universal matrix for functionalization.

KW - Adsorption

KW - AIREBO

KW - Functionalization

KW - Multilayer graphene

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