Ruoyu Zhang scite author profile

Photochemical solution-phase reactions have been widely applied for the syntheses of nanocrystals. In particular, tuning of the nucleation and growth of solids has been a major area of focus. Here we demonstrate a facile approach to generate atomically dispersed platinum via photochemical reduction of frozen chloroplatinic acid solution using ultraviolet light. Using this iced-photochemical reduction, the aggregation of atoms is prevented, and single atoms are successfully stabilized. The platinum atoms are deposited on various substrates, including mesoporous carbon, graphene, carbon nanotubes, titanium dioxide nanoparticles, and zinc oxide nanowires. The atomically dispersed platinum on mesoporous carbon exhibits efficient catalytic activity for the electrochemical hydrogen evolution reaction, with an overpotential of only 65 mV at a current density of 100 mA cm −2 and long-time durability (>10 h), superior to state-of-the-art platinum/carbon. This iced-photochemical reduction may be extended to other single atoms, for example gold and silver, as demonstrated in this study.

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Specific Light‐Up Bioprobe with Aggregation‐Induced Emission and Activatable Photoactivity for the Targeted and Image‐Guided Photodynamic Ablation of Cancer Cells

Yuan

et al. 2014

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Activatable photosensitizers (PSs) have been widely used for the simultaneous fluorescence imaging and photodynamic ablation of cancer cells. However, the ready aggregation of traditional PSs in aqueous media can lead to fluorescence quenching as well as reduced phototoxicity even in the activated form. We have developed a series of PSs that show aggregation-enhanced emission and phototoxicity and thus the exact opposite behavior to that of previously reported PSs. We further developed a dual-targeted enzyme-activatable bioprobe based on the optimized photosensitizer and describe simultaneous light-up fluorescence imaging and activated photodynamic therapy for specific cancer cells. The design of smart probes should thus open new opportunities for targeted and image-guided photodynamic therapy.

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Structural and Mechanistic Insights into LEOPARD Syndrome-Associated SHP2 Mutations

Walls

et al. 2013

Journal of Biological Chemistry

113

186

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Background:The mechanism by which SHP2 mutations cause LEOPARD syndrome is poorly understood. Results: LEOPARD syndrome mutations impair SHP2 activity but increase its propensity for an open and active conformation. Conclusion: LEOPARD syndrome SHP2 mutants bind preferentially to upstream activators to prolong substrate turnover, thus engendering gain-of-function phenotypes. Significance: The study provides a framework for understanding how individual SHP2 mutations cause diseases.

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Ab Initio Site Occupancy and Far-Red Emission of Mn⁴⁺ in Cubic-Phase La(MgTi)_1/2O₃ for Plant Cultivation

Zhou

Zheng

Shi

et al. 2017

ACS Appl. Mater. Interfaces

320

138

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Mn-activated oxide phosphors La(MgTi)O (LMT) with far-red emitting were prepared via a sol-gel route. The structures of samples were determined by X-ray diffraction (XRD) and Reitveld refinement. The occupied sites of Mn (d electronic configuration) in host La(MgTi)O were confirmed by ab initio calculations in which the system has the lower formation energy, stable lattice structure, and strong bonding state as Mn enters into Ti site. The luminescent properties of Mn-doped samples were investigated; the samples emit far-red light centered at 708 nm with ultraviolet light (345 nm) or blue light (487 nm) excitation. According to the photoluminescence (PL) and excitation (PLE) spectra, the crystal field strength of the Mn-occupied environment was estimated. The thermal stability of phosphor was also evaluated through temperature-dependent PL intensity in a heating and cooling cycle process. The emission band is well-matched with the absorption band of phytochrome P under the excitation of light in near-ultraviolet to blue, which suggests that the LMT: Mn phosphor has great potential applications in light-emitting diodes (LEDs) for modulating plant growth.

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A Perspective on PEF Synthesis, Properties, and End-Life

et al. 2020

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This critical review considers the extensive research and development dedicated, in the last years, to a single polymer, the poly(ethylene 2,5-furandicarboxylate), usually simply referred to as PEF. PEF importance stems from the fact that it is based on renewable resources, typically prepared from C6 sugars present in biomass feedstocks, for its resemblance to the high-performance poly(ethylene terephthalate) (PET) and in terms of barrier properties even outperforming PET. For the first time synthesis, properties, and end-life targeting-a more sustainable PEF-are critically reviewed. The emphasis is placed on how synthetic roots to PEF evolved toward the development of greener processes based on ring open polymerization, enzymatic synthesis, or the use of ionic liquids; together with a broader perspective on PEF end-life, highlighting recycling and (bio)degradation solutions.

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Ruoyu Zhang

Iced photochemical reduction to synthesize atomically dispersed metals by suppressing nanocrystal growth

Specific Light‐Up Bioprobe with Aggregation‐Induced Emission and Activatable Photoactivity for the Targeted and Image‐Guided Photodynamic Ablation of Cancer Cells

Structural and Mechanistic Insights into LEOPARD Syndrome-Associated SHP2 Mutations

Ab Initio Site Occupancy and Far-Red Emission of Mn⁴⁺ in Cubic-Phase La(MgTi)_1/2O₃ for Plant Cultivation

A Perspective on PEF Synthesis, Properties, and End-Life

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Ruoyu Zhang

Iced photochemical reduction to synthesize atomically dispersed metals by suppressing nanocrystal growth

Specific Light‐Up Bioprobe with Aggregation‐Induced Emission and Activatable Photoactivity for the Targeted and Image‐Guided Photodynamic Ablation of Cancer Cells

Structural and Mechanistic Insights into LEOPARD Syndrome-Associated SHP2 Mutations

Ab Initio Site Occupancy and Far-Red Emission of Mn4+ in Cubic-Phase La(MgTi)1/2O3 for Plant Cultivation

A Perspective on PEF Synthesis, Properties, and End-Life

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Ab Initio Site Occupancy and Far-Red Emission of Mn⁴⁺ in Cubic-Phase La(MgTi)_1/2O₃ for Plant Cultivation