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Layer-by-layer Films and Colloidal Dispersions of Graphene Oxide Nanosheets for Efficient Control of the Fluorescence and Aggregation Properties of the Cationic Dye Acridine Orange

Layer-by-layer Films and Colloidal Dispersions of Graphene Oxide Nanosheets for Efficient Control of the Fluorescence and Aggregation Properties of the Cationic Dye Acridine Orange

Chaitali Hansda, Utsav Chakraborty, Syed Arshad Hussain, Debajyoti Bhattacharjee, Pabitra Kumar Paul

Spectrochim Acta A Mol Biomol Spectrosc. 2016 Mar 15;157:79-87.

PMID: 26722674

Abstract:

Chemically derived graphene oxide (GO) nanosheets have received great deal of interest for technological application such as optoelectronic and biosensors. Aqueous dispersions of GO become an efficient template to induce the association of cationic dye namely Acridine Orange (AO). Interactions of AO with colloidal GO was governed by both electrostatic and π-π stacking cooperative interactions. The type of dye aggregations was found to depend on the concentration of GO in the mixed ensemble. Spectroscopic calculations revealed the formation of both H and J-type dimers, but H-type aggregations were predominant. Preparation of layer-by-layer (LbL) electrostatic self-assembled films of AO and GO onto poly (allylamine hydrochloride) (PAH) coated quartz substrate is also reported in this article. UV-Vis absorption, steady state and time resolve fluorescence and Raman spectroscopic techniques have been employed to explore the detail photophysical properties of pure AO, AO/GO mixed solution and AO/GO LbL films. Scanning electron microscopy was also used for visual evidence of the synthesized nanodimensional GO sheets. The fluorescence quenching of AO in the presence of GO in aqueous solution was due to the interfacial photoinduced electron transfer (PET) from photoexcited AO to GO i.e. GO acts as an efficient quenching agent for the fluorescence emission of AO. The quenching is found to be static in nature. Raman spectroscopic results also confirmed the interaction of AO with GO and the electron transfer. The formation of AO/GO complex via very fast excited state electron transfer mechanism may be proposed as to prepare GO-based fluorescence sensor for biomolecular detection without direct labeling the biomolecules by fluorescent probe.

Chemicals Related in the Paper:

Catalog Number	Product Name	Structure	CAS Number	Price
AP65612-A	Acridine Orange hydrochloride solution		65-61-2	Price

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