Yejia Jiang scite author profile

A highly active oxygen vacant titanium dioxide/reduced graphene oxide photocatalyst that exhibits significantly enhanced photochromic performance and high cyclability is reported. The catalyst is used in the design of a single photochromic system that can be tuned to exhibit response to changes in the properties of the applied light. Four devices are achieved that can respond to changes in wavelength, intensity, time of illumination, or multiple stimuli, and all exhibit vivid multi-colored functionality.

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Dynamic Optics with Transparency and Color Changes under Ambient Conditions

Jiang

Zeng

Yao

et al. 2019

Polymers

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Mechanochromic materials have recently received tremendous attention because of their potential applications in humanoid robots, smart windows, strain sensors, anti-counterfeit tags, etc. However, improvements in device design are highly desired for practical implementation in a broader working environment with a high stability. In this article, a novel and robust mechanochromism was designed and fabricated via a facile method. Silica nanoparticles (NPs) that serve as a trigger of color switch were embedded in elastomer to form a bi-layer hybrid film. Upon stretching under ambient conditions, the hybrid film can change color as well as transparency. Furthermore, it demonstrates excellent reversibility and reproducibility and is promising for widespread application.

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A Novel Viscosity-Temperature Model of Glass-Forming Liquids by Modifying the Eyring Viscosity Equation

et al. 2020

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Many models have been created and attempted to describe the temperature-dependent viscosity of glass-forming liquids, which is the foundational feature to lay out the mechanism of obtaining desired glass properties. Most viscosity models were generated along with several impact factors. The complex compositions of commercial glasses raise challenges to settle these parameters. Usually, this issue will lead to unsatisfactory predicted results when fitted to a real viscosity profile. In fact, the introduction of the reliable viscosity-temperature data to viscosity equations is an effective approach to obtain the accurate parameters. In this paper, the Eyring viscosity equation, which is widely adopted for molecular and polymer liquids, was applied in this case to calculate the viscosity of glass materials. On the basis of the linear variation of molar volume with temperature during glass cooling, a modified temperature-dependent Eyring viscosity equation was derived with a distinguished mathematical expression. By means of combining high-temperature viscosity data and the glass transition temperature (Tg), nonlinear regression analysis was employed to obtain the accurate parameters of the equation. In addition, we have demonstrated that the different regression methods exert a great effect on the final prediction results. The viscosity of a series of glasses across a wide temperature range was accurately predicted via the optimal regression method, which was further used to verify the reliability of the modified Eyring equation.

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Ridge regression for predicting elastic moduli and hardness of calcium aluminosilicate glasses

Deng

Zeng

Jiang

et al. 2018

Mater. Res. Express

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Yejia Jiang

High-performance strain sensors based on bilayer carbon black/PDMS hybrids

Multi-color Reversible Photochromisms via Tunable Light-Dependent Responses

Dynamic Optics with Transparency and Color Changes under Ambient Conditions

A Novel Viscosity-Temperature Model of Glass-Forming Liquids by Modifying the Eyring Viscosity Equation

Ridge regression for predicting elastic moduli and hardness of calcium aluminosilicate glasses

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