How Size Determines the Value of Gold: Economic Aspects of Wet Chemical and Laser‐Based Metal Colloid Synthesis

Jendrzej, Sandra; Gökce, Bilal; Epple, Matthias; Barcikowski, Stephan

doi:10.1002/cphc.201601139

Cited by 96 publications

(95 citation statements)

References 48 publications

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“…hereby corresponding to 16 kg of a catalyst containing 1 wt% of nanoparticles per 40 h week production . Note that regarding characteristic economic indicators, laser‐based catalyst production may even be cheaper than chemical synthesis, as has been calculated in detail at the example of gold nanoparticles (Au NPs) . Following the previous statements, the laser‐generated catalysts do not require any sophisticated purification steps and are therefore obtained directly or after centrifugation and rinsing with pure water without further high temperature (≫100 °C) calcination, as shown, amongst others, by Dong et al .…”

Section: High Catalytic Performance: Purity Mattersmentioning

confidence: 78%

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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: High Catalytic Performance: Purity Mattersmentioning

confidence: 78%

“…Regarding the economic feasibility, a benchmark productivity of ∼550 mg nanoparticles per hour has been determined by Jendrzej et al. with laser ablation becoming economically favored when exceeding the given productivity threshold …”

Section: Nanointegration: Supported Laser‐generated Particlesmentioning

confidence: 99%

Perspective of Surfactant‐Free Colloidal Nanoparticles in Heterogeneous Catalysis

et al. 2019

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“…Surface chemistry plays an important role in the activity of a catalyst . LAL‐synthesized catalysts are different from Chem catalysts (Figure ) . The M−O − and M−OH − bonds endow the metal (e.g., Au) NPs with surface charges upon implementing LAL in water (Figure a) .…”

Section: Challenging Issues For Metal Catalystsmentioning

confidence: 99%

“…Because the synthetic conditions for LAL are completely different from the “mild” conditions of chemical methods, novel nanomaterials with unique physical and chemical properties may form . The innate surfactant‐free feature of LAL‐generated nanomaterials is very attractive for high‐performance catalytic applications because 1) it frees researchers from time‐consuming cleaning procedures, such as centrifugation, solvent extraction, calcination, or ozonolysis; 2) continuous processes are also more cost‐efficient owing to a lower staff workload during the continuously running process, whereas batch processes require regular removal of target compounds, fresh liquids, and cleaning steps; and 3) without the blocking effect of surfactants, LAL‐generated catalysts are highly active . However, LAL‐synthesized surfactant‐free NPs often suffer from polydispersity; thus hindering the investigation of the size effects of LAL‐synthesized NPs on catalytic applications.…”

Section: Lspc Techniquementioning

confidence: 99%

“…We started with the properties of the materials because of the importance of surface chemistry and particle evolution for particle characterization and catalytic applications. Dangling bonds at NP surfaces are often terminated by small functional groups, such as hydroxy, methoxy, and ethoxy, during the implementation of LAL/LPL in water, methanol, and ethanol, respectively . Hence, surfactant‐free is a more accurate way to describe the surface chemistry of LAL‐/LPL‐synthesized nanomaterials, rather than the widely used ligand‐free and naked terms.…”

Section: Outlook and Summarymentioning

confidence: 99%

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

Zhang

et al. 2017

ChemNanoMat

110

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For excellence in the synthesis of highly active metal and oxide catalysts, a newly emerging technique—laser synthesis and processing of colloids (LSPC)—is gaining increasing attention for catalytic applications, such as water splitting, fuel cells, and photodegradation of organic pollutants. The advantages of using LSPC‐synthesized metal catalysts have been reviewed elsewhere [Chem. Rev. 2017, 117, 3990–4103]. Herein, current challenges related to the properties (surface chemistry and particle evolution) of metal catalysts synthesized by laser ablation in liquids/laser processing in liquids are discussed. The main focus is on the advantages of LSPC in surfactant‐free defect engineering of oxide nanoparticles. Compared with other techniques (e.g., hydrogenation), LSPC provides a unique platform to simultaneously introduce oxygen vacancies and surface disorders into oxide (e.g., TiO2) nanomaterials; thus allowing narrowing of the band gap from both conduction and valence bands. Defect‐rich oxides have versatile uses, such as being directly applied as photocatalysts and as building blocks to construct supported, doped, and ternary oxide photocatalysts for electrochemical and photocatalytic applications. The LSPC‐synthesized catalysts are promising for applications as commercial catalysts in light of their higher activities than those of current Pt/C and P25 TiO2 commercial catalysts.

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A Laser Synthesis Route to Boron‐Doped Gold Nanoparticles Designed for X‐Ray Radiotherapy and Boron Neutron Capture Therapy Assisted by CT Imaging

Scaramuzza

Faria

Coviello

et al. 2023

Adv Funct Materials

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New multifunctional theranostic vectors allow the expansion of cancer therapeutic approaches toward scarcely investigated fields. One example is the combination of boron neutron capture therapy (BNCT) and X‐ray radiotherapy (XRT) for treating normal and XRT‐resistant hypoxic tumor regions and reduce recurrence. Of great relevance for BNCT is also the support of viable, rapid, safe, and reliable techniques for the localization and quantification of the radiosensitizers in the tissues. To address these challenges, polymer‐coated Au‐B nanoparticles (NPs) are obtained starting from a laser ablation in liquid process. Despite thermodynamic constraints, the two elements coexist by short‐range boron segregation in the gold lattice, as demonstrated experimentally and explained with the support of density functional theory calculations. Thus, the Au‐B NPs maintain a marked gold character such as biocompatibility, stability, and straightforward surface chemistry with thiolated compounds, desirable for the integration with agents capable of cell targeting and internalization. Overall, the Au‐B NPs exhibit the appropriate features for the investigation of combined BNCT and XRT, supported by the localization and quantification with X‐ray computed tomography imaging. Besides, the Au‐B nanotechnology tool is achievable without renouncing to reproducibility, environmental sustainability, and cost affordability thanks to the laser‐assisted synthetic pathway.

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How Size Determines the Value of Gold: Economic Aspects of Wet Chemical and Laser‐Based Metal Colloid Synthesis

Cited by 96 publications

References 48 publications

Perspective of Surfactant‐Free Colloidal Nanoparticles in Heterogeneous Catalysis

Perspective of Surfactant‐Free Colloidal Nanoparticles in Heterogeneous Catalysis

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

A Laser Synthesis Route to Boron‐Doped Gold Nanoparticles Designed for X‐Ray Radiotherapy and Boron Neutron Capture Therapy Assisted by CT Imaging

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