CdS aerogels as efficient photocatalysts for degradation of organic dyes under visible light irradiation

Korala, Lasantha; Germain, Jason R.; Chen, Erica; Pala, Irina R.; Li, Da; Brock, Stephanie L.

doi:10.1039/c7qi00140a

Cited by 62 publications

(37 citation statements)

References 36 publications

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“…electrocatalysis, 26,27 photoelectrochemical applications, 6,28 and photocatalysis. 1,3,29 In the recent past, different working groups investigated cation exchange reactions on nanocrystals with different shapes and material composition. [30][31][32][33][34][35] Due to the short diffusion path of the cations within the nanoparticle crystal, even cation exchange reactions which are unknown (or extremely slow) on the bulk scale can occur.…”

Section: Introductionmentioning

confidence: 99%

Reversible cation exchange on macroscopic CdSe/CdS and CdS nanorod based gel networks

et al. 2020

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Section: Introductionmentioning

confidence: 99%

Reversible cation exchange on macroscopic CdSe/CdS and CdS nanorod based gel networks

et al. 2020

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“…Since the development of nanoparticle based aerogel structures, there is a high interest in these self‐assembled 3D nanoparticle networks and in exploiting their suitability in different fields, e.g. photocatalysis, electrocatalysis, and photo‐electrochemical application like sensing . By controlling the destabilization process of the nanocrystals, it is possible to obtain nanoparticle networks in which the nanoparticles are connected to each other in a defined way .…”

Section: Introductionmentioning

confidence: 99%

Patterning of Nanoparticle‐Based Aerogels and Xerogels by Inkjet Printing

Lübkemann

Miethe

Steinbach

et al. 2019

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Nanoparticle‐based voluminous 3D networks with low densities are a unique class of materials and are commonly known as aerogels. Due to the high surface‐to‐volume ratio, aerogels and xerogels might be suitable materials for applications in different fields, e.g. photocatalysis, catalysis, or sensing. One major difficulty in the handling of nanoparticle‐based aerogels and xerogels is the defined patterning of these structures on different substrates and surfaces. The automated manufacturing of nanoparticle‐based aerogel‐ or xerogel‐coated electrodes can easily be realized via inkjet printing. The main focus of this work is the implementation of the standard nanoparticle‐based gelation process in a commercial inkjet printing system. By simultaneously printing semiconductor nanoparticles and a destabilization agent, a 3D network on a conducting and transparent surface is obtained. First spectro‐electrochemical measurements are recorded to investigate the charge–carrier mobility within these 3D semiconductor‐based xerogel networks.

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“…19 Similarly semiconductor nanoparticle based networks were employed as photocatalysts. 20 Our group recently demonstrated a semiconductor network based sensor also showing the higher sensitivity of the network compared to plain nanoparticles. 21 One drawback of the monolithic network structures is their poor mechanical stability which is widely regarded as the point inhibiting application of these networks.…”

Section: Introductionmentioning

confidence: 99%