M. Kawa scite author profile

An interesting interplay between two different modifiers and the surface of titanium dioxide leads to a significant change in photoelectrochemical properties of the designed hybrid materials. The semiconductor is photosensitized by one of the counterparts and exhibits the photoelectrochemical photocurrent switching effect thanks to interactions with graphene oxide -the second modifier mediates charge transfer processes in the system, allowing us to design the materials response at the molecular level. Based on the selection of molecular counterpart we may affect the behaviour of hybrids upon light irradiation in a different manner, which may be useful for the applications in photovoltaics, optoelectronics and photocatalysis. Here we focus particularly on the nanocomposites made of titanium dioxide with graphene oxide combined with either 2,3,5,6-tetrachlorobenzoquinone or 2,3-dichloro-5,6-dihydroxybenzoquinone -for these two materials we observed a major change in the charge transfer processes occurring in the system.

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Interactions between graphene oxide and wide band gap semiconductors

Kawa

Podborska

Szaciłowski

2016

J. Phys.: Conf. Ser.

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M. Kawa

Synaptic Behavior in an Optoelectronic Device Based on Semiconductor‐Nanotube Hybrid

Microwave system with sensor utilizing GO-based gas-sensitive layer and its application to acetone detection

Charge transfer tuning in TiO₂hybrid nanostructures with acceptor–acceptor systems

Interactions between graphene oxide and wide band gap semiconductors

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M. Kawa

Synaptic Behavior in an Optoelectronic Device Based on Semiconductor‐Nanotube Hybrid

Microwave system with sensor utilizing GO-based gas-sensitive layer and its application to acetone detection

Charge transfer tuning in TiO2hybrid nanostructures with acceptor–acceptor systems

Interactions between graphene oxide and wide band gap semiconductors

Contact Info

Product

Resources

About

Charge transfer tuning in TiO₂hybrid nanostructures with acceptor–acceptor systems