2019
DOI: 10.1021/acsomega.9b02907
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Ternary Metal Chalcogenide Heterostructure (AgInS2–TiO2) Nanocomposites for Visible Light Photocatalytic Applications

Abstract: Hybrid nanoarchitectures of AgInS2 and TiO2 photocatalysts were prepared by using a modified sol–gel method. The experimental results reveal that these nanocomposites display enhanced visible light absorption and effective charge carrier separation compared to their pristine parent samples (AgInS2 or TiO2). 0.5 wt % AgInS2 loading was found to be the optimum concentration for photocatalytic applications. More than 95% of doxycycline degradation was achieved within 180 min of solar light illumination. Similarly… Show more

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Cited by 42 publications
(29 citation statements)
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“…Based on the calculated values (Figure 5A-g), it's proposed that the photogenerated electron-hole pairs, as well as superoxide radicals, are the predominant reactive species participating in the photocatalytic reactions. [39] Afterwards, Ganguly et al systematically investigated the AgBiS 2 /TiO 2 photocatalyst for hydrogen evolution using the similar theoretical and experimental methods [40] and reached conclusions similar to those obtained regarding AgInS 2 /TiO 2 (Figure 5B). [39,40] Based on the above consideration, we can conclude that the photocatalytic hydro-gen evolution rate of TMS/TiO 2 photocatalysts can be optimized by tuning the elements in the TMS, resulting in an optimized crystal and band structure of TMS.…”
Section: Agins 2 /Tio 2 and Agbis 2 /Tiosupporting
confidence: 54%
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“…Based on the calculated values (Figure 5A-g), it's proposed that the photogenerated electron-hole pairs, as well as superoxide radicals, are the predominant reactive species participating in the photocatalytic reactions. [39] Afterwards, Ganguly et al systematically investigated the AgBiS 2 /TiO 2 photocatalyst for hydrogen evolution using the similar theoretical and experimental methods [40] and reached conclusions similar to those obtained regarding AgInS 2 /TiO 2 (Figure 5B). [39,40] Based on the above consideration, we can conclude that the photocatalytic hydro-gen evolution rate of TMS/TiO 2 photocatalysts can be optimized by tuning the elements in the TMS, resulting in an optimized crystal and band structure of TMS.…”
Section: Agins 2 /Tio 2 and Agbis 2 /Tiosupporting
confidence: 54%
“…AgInS 2 is an AgÀ InÀ S TMS with I-III-VI 2 formula which can be crystallized into two different polymorphs: room-temperaturestable tetragonal chalcopyrite structure and high-temperature orthorhombic wurtzite structure. [39,66] Nanocrystals of these phases can be synthesized by different liquid-phase reactions, and the phase transition temperature point is 620 °C. [67,68] Orthorhombic AgInS 2 has a small band gap and excellent photon absorption in the visible region of the electromagnetic spectrum, making it suitable for photocatalytic applications.…”
Section: Agins 2 /Tio 2 and Agbis 2 /Tiomentioning
confidence: 99%
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“…Among various miRNA analytical methods, the photoelectrochemical (PEC) technique has attracted extensive attention due to its versatility, high sensitivity, simple equipment, and so forth. Benefiting from facile preparation, easy modification, high photochemical activity, and stability, the previous works have mainly focused on photoanodic biosensors with n-type semiconductor-sensitized materials such as TiO 2 , BiVO 4 , CdS quantum dots (QDs), and so on. The n-type semiconductor took electrons as the main carriers and inclined to interact with electron donors to produce a significant photocurrent response. , As a typical ternary n-type semiconductor material, AgInS 2 exhibited fast charge conduction rate under red-light excitation. , Nevertheless, the photoanodic biosensors suffered from insufficient anti-interference performance. The coexisting reducing components in actual samples (such as H 2 O 2 , dopamine, and nicotinamide adenine dinucleotide, , etc.)…”
Section: Introductionmentioning
confidence: 99%