Water on Graphene-Coated TiO2: Role of Atomic Vacancies
Beyond two-dimensional (2D) materials, interfaces between 2D materials and underlying supports or 2D-coated metal or metal oxide nanoparticles exhibit excellent properties and promising applications. The hybrid interface between graphene and anatase TiO2 shows great importance in photocatalytic, cat...
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| Published in: | ACS applied materials & interfaces Vol. 10; no. 6; pp. 5793 - 5804 |
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| Main Authors: | , , |
| Format: | Journal Article |
| Language: | English |
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American Chemical Society
14-02-2018
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| Abstract | Beyond two-dimensional (2D) materials, interfaces between 2D materials and underlying supports or 2D-coated metal or metal oxide nanoparticles exhibit excellent properties and promising applications. The hybrid interface between graphene and anatase TiO2 shows great importance in photocatalytic, catalytic, and nanomedical applications due to the excellent and complementary properties of the two materials. Water, as a ubiquitous and essential element in practical conditions and in the human body, plays a significant role in the applications of graphene/TiO2 composites for both electronic devices and nanomedicine. Carbon vacancies, as common defects in chemically prepared graphene, also need to be considered for the application of graphene-based materials. Therefore, the behavior of water on top and at the interface of defective graphene on anatase TiO2 surface was systematically investigated by dispersion-corrected hybrid density functional calculations. The presence of the substrate only slightly enhances the on-top adsorption and reduces the on-top dissociation of water on defective graphene. However, at the interface, dissociated water is largely preferred compared with undissociated water on bare TiO2 surface, showing a prominent cover effect. Reduced TiO2 may further induce oxygen diffusion into the bulk. Our results are helpful to understand how the presence of water in the surrounding environment affects structural and electronic properties of the graphene/TiO2 interface and thus its application in photocatalysis, electronic devices, and nanomedicine. |
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| AbstractList | Beyond
two-dimensional (2D) materials, interfaces between 2D materials and
underlying supports or 2D-coated metal or metal oxide nanoparticles
exhibit excellent properties and promising applications. The hybrid
interface between graphene and anatase TiO
2
shows great
importance in photocatalytic, catalytic, and nanomedical applications
due to the excellent and complementary properties of the two materials.
Water, as a ubiquitous and essential element in practical conditions
and in the human body, plays a significant role in the applications
of graphene/TiO
2
composites for both electronic devices
and nanomedicine. Carbon vacancies, as common defects in chemically
prepared graphene, also need to be considered for the application
of graphene-based materials. Therefore, the behavior of water on top
and at the interface of defective graphene on anatase TiO
2
surface was systematically investigated by dispersion-corrected
hybrid density functional calculations. The presence of the substrate
only slightly enhances the on-top adsorption and reduces the on-top
dissociation of water on defective graphene. However, at the interface,
dissociated water is largely preferred compared with undissociated
water on bare TiO
2
surface, showing a prominent cover effect.
Reduced TiO
2
may further induce oxygen diffusion into the
bulk. Our results are helpful to understand how the presence of water
in the surrounding environment affects structural and electronic properties
of the graphene/TiO
2
interface and thus its application
in photocatalysis, electronic devices, and nanomedicine. Beyond two-dimensional (2D) materials, interfaces between 2D materials and underlying supports or 2D-coated metal or metal oxide nanoparticles exhibit excellent properties and promising applications. The hybrid interface between graphene and anatase TiO2 shows great importance in photocatalytic, catalytic, and nanomedical applications due to the excellent and complementary properties of the two materials. Water, as a ubiquitous and essential element in practical conditions and in the human body, plays a significant role in the applications of graphene/TiO2 composites for both electronic devices and nanomedicine. Carbon vacancies, as common defects in chemically prepared graphene, also need to be considered for the application of graphene-based materials. Therefore, the behavior of water on top and at the interface of defective graphene on anatase TiO2 surface was systematically investigated by dispersion-corrected hybrid density functional calculations. The presence of the substrate only slightly enhances the on-top adsorption and reduces the on-top dissociation of water on defective graphene. However, at the interface, dissociated water is largely preferred compared with undissociated water on bare TiO2 surface, showing a prominent cover effect. Reduced TiO2 may further induce oxygen diffusion into the bulk. Our results are helpful to understand how the presence of water in the surrounding environment affects structural and electronic properties of the graphene/TiO2 interface and thus its application in photocatalysis, electronic devices, and nanomedicine. |
| Author | Datteo, Martina Di Valentin, Cristiana Liu, Hongsheng |
| AuthorAffiliation | Università di Milano-Bicocca Dipartimento di Scienza dei Materiali |
| AuthorAffiliation_xml | – name: Università di Milano-Bicocca – name: Dipartimento di Scienza dei Materiali |
| Author_xml | – sequence: 1 givenname: Martina surname: Datteo fullname: Datteo, Martina – sequence: 2 givenname: Hongsheng surname: Liu fullname: Liu, Hongsheng – sequence: 3 givenname: Cristiana orcidid: 0000-0003-4163-8062 surname: Di Valentin fullname: Di Valentin, Cristiana email: cristiana.divalentin@unimib.it |
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| Issue | 6 |
| Keywords | graphene/TiO2 interface catalysis under cover carbon vacancy oxygen vacancy water reactivity hydrophilicity |
| Language | English |
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| Title | Water on Graphene-Coated TiO2: Role of Atomic Vacancies |
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