Cation exchange of aqueous CuInS<sub>2</sub> quantum dots

Macdonald, Thomas J.; Mange, Yatin J.; Dewi, Melissa R.; McFadden, Aoife; Skinner, William; Nann, Thomas

doi:10.1039/c4ce00545g

Cited by 21 publications

(41 citation statements)

References 27 publications

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“…The absorbance and emission spectrum of CuInS 2 core NCs, may be found in the supporting information (ESI), Figure S1. The broad emission peak for the CuInS 2 /ZnS NCs appears in the visible region at 590 nm, the tail end of the peak stretches out across the infrared region, consistent with the emission spectra for CuInS 2 /ZnS NCs 31,35 .…”

Section: Esrfsupporting

confidence: 80%

“…While the absorbance spectrum shows a broad peak, no strong excitonic peak is present. The broad features for the absorption spectrum and lack of excitonic peak has been reported previously and attributed to surface defects in the NCs 25,31 . The absorbance and emission spectrum of CuInS 2 core NCs, may be found in the supporting information (ESI), Figure S1.…”

Section: Esrfsupporting

confidence: 74%

“…CuInS 2 /ZnS NCs were synthesised according to our previous report 31 . Briefly, 0.5 mL Cu(Ac) 2 (0.125 M) and 0.5 mL InCl 3 (0.125 M) were injected into 37.5 mL of Milli--Q water at ambient temperature.…”

Section: Synthesis Of Aqueous Cuins 2 /Zns Ncsmentioning

confidence: 99%

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CuInS₂/ZnS nanocrystals as sensitisers for NiO photocathodes

et al. 2015

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Section: Esrfsupporting

confidence: 80%

Section: Esrfsupporting

confidence: 74%

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CuInS₂/ZnS nanocrystals as sensitisers for NiO photocathodes

et al. 2015

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“…Substantial efforts have been made on the production of nanoparticles where their unique and interesting properties can be tailored by adjusting their particle size and shape202122. Gold nanoparticles (AuNPs) and other gold-based nanomaterials have generally been considered inert, non-toxic and bio-compatible232425 and AuNPs continue to show great potential as therapeutic and medical imaging agents2627282930, AuNPs possess a high surface-to-volume ratio, easily tunable size, and facile surface modification, rendering them versatile platforms for healthcare materials313233.…”

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confidence: 99%

Thiol-Capped Gold Nanoparticles Swell-Encapsulated into Polyurethane as Powerful Antibacterial Surfaces Under Dark and Light Conditions

Macdonald

Sehmi

et al. 2016

Sci Rep

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A simple procedure to develop antibacterial surfaces using thiol-capped gold nanoparticles (AuNPs) is shown, which effectively kill bacteria under dark and light conditions. The effect of AuNP size and concentration on photo-activated antibacterial surfaces is reported and we show significant size effects, as well as bactericidal activity with crystal violet (CV) coated polyurethane. These materials have been proven to be powerful antibacterial surfaces against both Gram-positive and Gram-negative bacteria. AuNPs of 2, 3 or 5 nm diameter were swell-encapsulated into PU before a coating of CV was applied (known as PU-AuNPs-CV). The antibacterial activity of PU-AuNPs-CV samples was tested against Staphylococcus aureus and Escherichia coli as representative Gram-positive and Gram-negative bacteria under dark and light conditions. All light conditions in this study simulated a typical white-light hospital environment. This work demonstrates that the antibacterial activity of PU-AuNPs-CV samples and the synergistic enhancement of photoactivity of triarylmethane type dyes is highly dependent on nanoparticle size and concentration. The most powerful PU-AuNPs-CV antibacterial surfaces were achieved using 1.0 mg mL−1 swell encapsulation concentrations of 2 nm AuNPs. After two hours, Gram-positive and Gram-negative bacteria were reduced to below the detection limit (>4 log) under dark and light conditions.

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“…Cd, Pb, Se, and Te) awoke environmental and healthcare concerns. Recently, many researchers turned their attention to the type I-III-VI semiconductor nanocrystals, in particular, CuInS 2 (CIS), which is presently the most attractive and lesser toxic alternative combination [13]. CIS is direct band-gap ternary semiconductor with low toxicity, high optical absorption coefficients (10 5 cm −1 ) [14], and high photochemical stability [15].…”

Section: Introductionmentioning

confidence: 99%

Optimization of the recipe for the synthesis of CuInS₂/ZnS nanocrystals supported by mechanistic considerations

Luan

et al. 2016

Green Processing and Synthesis

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CuInS 2 /ZnS (CIS/ZnS) quantum dots (QDs) with high photoluminescence (PL) were synthesized via a facile solvothermal approach. Gaussian deconvolution of PL spectra, transmission electron microscopy, and timeresolved PL spectroscopies were used to characterize the emission properties of the prepared CIS and CIS/ZnS QDs. It was found that the growth of ZnS can reduce the surface defect acting as traps to minimize donor-acceptor emissions, and the contribution of band to donor/acceptor transition becomes a dominating emission with the increase of shell growth time. The blue shift of PL emission wavelength of CIS/ZnS QDs underwent two steps: the dramatic blue shift originated from the decreased fraction donor-acceptor transition due to the reduction of surface defects at the beginning and the subsequently mild blueshift with the time from the interdiffusion of CIS and ZnS. The effect of trioctylphosphine (TOP) and dodecanethiol (DDT) as ligands during shell growth on the optical properties of QDs were investigated and compared. The PL quantum yield (QY) of CIS core affects the final value of CIS/ ZnS QDs, and the higher PL QY is achieved while using CIS core with higher PL QY. Based on the selected ligand DDT, the reaction parameters, such as CIS core reaction time, shell growth time, and Zn/Cu feed molar ratio, were further optimized. CIS/ZnS QDs with high PL QY can be obtained with a Zn/Cu feed molar ratio larger than 4, shell growth time of 30 to 90 min, and shell growth temperature 220°C-240°C, and the maximum value was up to about 80% by adjusting the above-mentioned parameters.

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Cation exchange of aqueous CuInS₂ quantum dots

Abstract: Chalcopyrite copper indium disulfide (CIS) QDs have been of recent interest due to their non-toxicity. This article shows a straightforward aqueous cation exchange method to synthesise CIS particles with zinc sulfide coating.

Cited by 21 publications

References 27 publications

CuInS₂/ZnS nanocrystals as sensitisers for NiO photocathodes

CuInS₂/ZnS nanocrystals as sensitisers for NiO photocathodes

Thiol-Capped Gold Nanoparticles Swell-Encapsulated into Polyurethane as Powerful Antibacterial Surfaces Under Dark and Light Conditions

Optimization of the recipe for the synthesis of CuInS₂/ZnS nanocrystals supported by mechanistic considerations

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Cation exchange of aqueous CuInS2 quantum dots

Abstract: Chalcopyrite copper indium disulfide (CIS) QDs have been of recent interest due to their non-toxicity. This article shows a straightforward aqueous cation exchange method to synthesise CIS particles with zinc sulfide coating.

Cited by 21 publications

References 27 publications

CuInS2/ZnS nanocrystals as sensitisers for NiO photocathodes

CuInS2/ZnS nanocrystals as sensitisers for NiO photocathodes

Thiol-Capped Gold Nanoparticles Swell-Encapsulated into Polyurethane as Powerful Antibacterial Surfaces Under Dark and Light Conditions

Optimization of the recipe for the synthesis of CuInS2/ZnS nanocrystals supported by mechanistic considerations

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Cation exchange of aqueous CuInS₂ quantum dots

CuInS₂/ZnS nanocrystals as sensitisers for NiO photocathodes

CuInS₂/ZnS nanocrystals as sensitisers for NiO photocathodes

Optimization of the recipe for the synthesis of CuInS₂/ZnS nanocrystals supported by mechanistic considerations