Yujie Wu scite author profile

Nickel hydroxide (Ni(OH) 2 )isapromising electrocatalyst for the 5-hydroxymethylfurfural oxidation reaction (HMFOR) and the dehydronated intermediates Ni(OH)O species are proved to be active sites for HMFOR. In this study, Ni(OH) 2 is modified by platinum to adjust the electronic structure and the current density of HMFOR improves 8.2 times at the Pt/Ni(OH) 2 electrode compared with that on Ni(OH) 2 electrode.O perando methods reveal that the introduction of Pt optimizedt he redoxp roperty of Ni(OH) 2 and accelerate the formation of Ni(OH)O during the catalytic process.T heoretical studies demonstrate that the enhanced Ni(OH)O formation kinetics originates from the reduced dehydrogenation energy of Ni(OH) 2 .The product analysis and transition state simulation prove that the Pt also reduces adsorption energy of HMF with optimizeda dsorption behavior as Pt can act as the adsorption site of HMF.O verall, this work here provides as trategy to design an efficient and universal nickel-based catalyst for HMF electro-oxidation, which can also be extended to other Ni-based catalysts such as Ni(HCO 3 ) 2 and NiO.

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Charge Transfer Modulated Activity of Carbon‐Based Electrocatalysts

Wang

Zou

et al. 2019

Advanced Energy Materials

190

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Electrocatalysis is the most important electrode reactions for many energy storage and conversion devices, which are considered a key part of the resolution of the energy crisis. Toward this end, design of efficient electrocatalysts is of critical significance. While extensive research has been extended to develop excellent electrocatalysts, the fundamental understanding of the relationship between the electronic and structural properties of electrocatalysts and the catalytic activity must remain a priority. In this review, the activity modulation of electrocatalysts by charge transfer effects, including intramolecular and intermolecular charge transfer, is systematically introduced. With suitable charge transfer modification, such as heteroatom doping, defect engineering, molecule functionalization, and heterojunctions, the electrocatalytic activity of carbon‐based electrocatalysts can be significantly boosted. The manipulation of the electronic structure of carbon‐based materials by charge transfer may serve as a fundamental mechanism for performance enhancement. After establishing an understanding of the relationship between catalytic activity and charge transfer, the opportunities and challenges for the design of electrocatalyst with charge transfer effects are discussed.

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Effects of adsorbed and templated nanosilver in mesoporous calcium-silicate nanoparticles on inhibition of bacteria colonization of dentin

Fan¹,

Wu²,

Tay³

et al. 2014

IJN

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Mesoporous calcium-silicate nanoparticles (MCSNs) are advanced biomaterials for controlled drug delivery and mineralization induction. Nanosilver-incorporated MCSNs (Ag-MCSNs) were prepared in the present study using both the adsorption and template methods. Both versions of Ag-MCSNs showed characteristic morphology of mesoporous materials and exhibited sustained release of ions over time. In antibacterial testing against planktonic Enterococcus faecalis , Ag-MCSNs showed significantly better antibacterial effects when compared with MCSNs ( P <0.05). The Ag-MCSNs aggregated on the dentin surface of root canal walls and infiltrated into dentinal tubules after ultrasound activation, significantly inhibiting the adherence and colonization of E. faecalis on dentin ( P <0.05). Despite this, Ag-MCSNs with templated nanosilver showed much lower cytotoxicity than Ag-MCSNs with adsorbed nanosilver ( P <0.05). The results of the present study indicated that nanosilver could be incorporated into MCSNs using the template method. The templated nanosilver could release silver ions and inhibit the growth and colonization of E. faecalis both in the planktonic form and as biofilms on dentin surfaces as absorbed nanosilver. Templated Ag-MCSNs may be developed into a new intracanal disinfectant for root canal disinfection due to their antibacterial ability and low cytotoxicity, and as controlled release devices for other bioactive molecules to produce multifunctional biomaterials.

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Tailoring lattice strain in ultra-fine high-entropy alloys for active and stable methanol oxidation

et al. 2021

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High-entropy alloys (HEAs) have been widely studied due to their unconventional compositions and unique physicochemical properties for various applications. Herein, for the first time, we propose a surface strain strategy to tune the electrocatalytic activity of HEAs for methanol oxidation reaction (MOR). High-resolution aberration-corrected scanning transmission electron microscopy (STEM) and elemental mapping demonstrate both uniform atomic dispersion and the formation of a face-centered cubic (FCC) crystalline structure in PtFeCoNiCu HEAs. The HEAs obtained by heat treatment at 700°C (HEA-700) exhibit 0.94% compressive strain compared with that obtained at 400°C (HEA-400). As expected, the specific activity and mass activity of HEA-700 is higher than that of HEA-400 and most of the state-of-the-art catalysts. The enhanced MOR activity can be attributed to a shorter Pt-Pt bond distance in HEA-700 resulting from compressive strain. The nonprecious metal atoms in the core could generate compressive strain and down shift d-band centers via electron transfer to surface Pt layer. This work presents a new perspective for the design of high-performance HEAs electrocatalysts.

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Nanocrystalline Hydroxyapatite: Micelle Templated Synthesis and Characterization

Bose

2005

Langmuir

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Nanocrystalline calcium phosphate based inorganic, hydroxyapatite (HAp), was synthesized using the dodecyl phosphate micelle system. The surfactant concentration during synthesis played an important role on the final properties of these HAp nanoparticles. A surfactant concentration close to the critical micelle concentration produced the nanoparticles with the highest surface area, with porous less agglomerated morphology. Compacts made of these nanopowders showed between 97 and 98% theoretical density of phase-pure HAp and promoted cell-material interaction when cytotoxicity tests were performed.

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Yujie Wu

Platinum Modulates Redox Properties and 5‐Hydroxymethylfurfural Adsorption Kinetics of Ni(OH)₂ for Biomass Upgrading

Charge Transfer Modulated Activity of Carbon‐Based Electrocatalysts

Effects of adsorbed and templated nanosilver in mesoporous calcium-silicate nanoparticles on inhibition of bacteria colonization of dentin

Tailoring lattice strain in ultra-fine high-entropy alloys for active and stable methanol oxidation

Nanocrystalline Hydroxyapatite: Micelle Templated Synthesis and Characterization

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Yujie Wu

Platinum Modulates Redox Properties and 5‐Hydroxymethylfurfural Adsorption Kinetics of Ni(OH)2 for Biomass Upgrading

Charge Transfer Modulated Activity of Carbon‐Based Electrocatalysts

Effects of adsorbed and templated nanosilver in&nbsp;mesoporous calcium-silicate nanoparticles on&nbsp;inhibition of bacteria colonization of dentin

Tailoring lattice strain in ultra-fine high-entropy alloys for active and stable methanol oxidation

Nanocrystalline Hydroxyapatite: Micelle Templated Synthesis and Characterization

Contact Info

Product

Resources

About

Platinum Modulates Redox Properties and 5‐Hydroxymethylfurfural Adsorption Kinetics of Ni(OH)₂ for Biomass Upgrading

Effects of adsorbed and templated nanosilver in mesoporous calcium-silicate nanoparticles on inhibition of bacteria colonization of dentin