Recent Advances in Surfactant‐Free, Surface‐Charged, and Defect‐Rich Catalysts Developed by Laser Ablation and Processing in Liquids

Zhang, Dongshi; Li, Jun; Li, Pengfei; Tian, Zhenfei; Liang, Changhao

doi:10.1002/cnma.201700079

Cited by 108 publications

(89 citation statements)

References 213 publications

(481 reference statements)

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“…Pulsed laser post‐processing (PLPP) strategies of support materials to prepare defect‐rich NPs is an emerging field in laser‐based synthesis research . The main goal is to understand and develop photon‐induced defect formation strategies and understand how different types and densities of defect sites contribute to the catalytic activity in different reaction scenarios.…”

Section: Future Prospects: Laser‐based Defect Engineeringmentioning

confidence: 99%

“…The main goal is to understand and develop photon‐induced defect formation strategies and understand how different types and densities of defect sites contribute to the catalytic activity in different reaction scenarios. Despite the studies on single crystalline oxide surfaces and bulk materials as well as nanomaterials, no general mechanism on laser‐based defect generation in the liquid is available to date . From the present knowledge, the most important laser parameters determining defect formation in terms of electron excitation and occurring thermal stress during and after laser irradiation are: laser pulse duration, laser fluence, the particle mass‐specific laser energy dose and laser wavelength .…”

Section: Future Prospects: Laser‐based Defect Engineeringmentioning

confidence: 99%

“…In turn, Zhang et al. covered the recent advances, opportunities and challenges of laser‐material interaction during laser ablation with respect to the generation of defect‐rich or doped semiconductors for photo‐ and electrocatalytic applications . In two subsequent reviews, the Ma group first reviewed the utilization of laser‐generated metal and alloy nanoparticles at the example of carefully selected catalytic studies .…”

Section: Introductionmentioning

confidence: 99%

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Perspective of Surfactant‐Free Colloidal Nanoparticles in Heterogeneous Catalysis

et al. 2019

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Due to material gaps and synthesis‐related cross‐correlations in heterogeneous catalysis, chemists and physicists are constantly motivated to develop novel catalyst preparation methods for independent control of morphology, size, and composition. Within this article, advances, opportunities, and the current limits of laser‐based catalyst preparation technique, as well as synergies with conventional methods will be reviewed in terms of purity, particle size, morphology, composition, and nanoparticle‐support interaction. It will be shown, that the surfactant‐free particles represent ideal model materials to validate kinetic models and conduct parametric activity studies by independent adjustment of functional properties like nanoparticle size, composition, and load. Consequently, the importance of transient plasma dynamics tailoring nanoparticle formation will be pointed out, comparing experimental studies with own calculations and novel simulations taken from literature. Finally, perspectives of surfactant‐free colloidal nanoparticles for unrevealing active sites in heterogeneous catalysts are presented.

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Section: Future Prospects: Laser‐based Defect Engineeringmentioning

confidence: 99%

Section: Future Prospects: Laser‐based Defect Engineeringmentioning

confidence: 99%

Section: Introductionmentioning

confidence: 99%

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Perspective of Surfactant‐Free Colloidal Nanoparticles in Heterogeneous Catalysis

et al. 2019

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“…Facile laser ablation and processing techniques have been developed to introduce the defects into TiO 2 nanocrystals and colloids in liquid [31][32][33][34]. In a typical procedure, TiO 2 suspensions are irradiated by a high-intensity pulsed laser with frequent repetition rates to produce the characteristic blue-black TiO 2 .…”

Section: ••mentioning

confidence: 99%

Reactivity of Trapped and Accumulated Electrons in Titanium Dioxide Photocatalysis

2017

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Electrons, photogenerated in conduction bands (CB) and trapped in electron trap defects (Ti ds ) in titanium dioxide (TiO 2 ), play crucial roles in characteristic reductive reactions. This review summarizes the recent progress in the research on electron transfer in photo-excited TiO 2 . Particularly, the reactivity of electrons accumulated in CB and trapped at Ti ds on TiO 2 is highlighted in the reduction of molecular oxygen and molecular nitrogen, and the hydrogenation and dehalogenation of organic substrates. Finally, the prospects for developing highly active TiO 2 photocatalysts are discussed.

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“…Furthermore, the structural properties and composition of nanomaterials synthesized by this process can be controlled through external fields such as temperature‐ and electric‐fileds . It should be noted that the laser irradiation technique efficiently generates surfactant free nanoparticles which can exert an high catalytic activity . For the luminescent silicon nanoparticle formation, such a laser irradiation process is a promising top down approach .…”

Section: Introductionmentioning

confidence: 99%

Facile Formation of Stable Water‐Dispersed Luminescent Silicon Nanocrystals by Laser Processing in Liquid: Toward Fluorescent Labeling for Bio‐Imaging

Nakamura

Chinnathambi

et al. 2019

ChemNanoMat

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We herein develop a facile formation process of a water‐dispersed red luminescent undecenoic acid‐functionalized silicon nanocrystal (UA‐F: Si‐nc) via pulsed laser irradiation of porous silicon (PSi) in an organic solvent. The formed UA‐F: Si‐nc has a high stability against pH changes in aqueous solution and photo‐irradiation in water without any multi‐step surface treatments. Such a robust aqueous surface protection of Si‐nc is caused by hydrophilic organic group terminations and subsequent surface protection of OH bonding. From the viability and in vitro bio‐imaging tests against Hela cells and A549 cells, we confirmed that UA‐F: Si‐nc has very low cytotoxicity due to the essential biocompatibility of silicon and remains exhibiting a bright red luminescence in the cells. Because of its high stability in water as well as biocompatibility, UA‐F: Si‐nc is expected to act as a fluorescent label of cellular imaging.

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Recent Advances in Surfactant‐Free, Surface‐Charged, and Defect‐Rich Catalysts Developed by Laser Ablation and Processing in Liquids

Cited by 108 publications

References 213 publications

Perspective of Surfactant‐Free Colloidal Nanoparticles in Heterogeneous Catalysis

Perspective of Surfactant‐Free Colloidal Nanoparticles in Heterogeneous Catalysis

Reactivity of Trapped and Accumulated Electrons in Titanium Dioxide Photocatalysis

Facile Formation of Stable Water‐Dispersed Luminescent Silicon Nanocrystals by Laser Processing in Liquid: Toward Fluorescent Labeling for Bio‐Imaging

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