Yulong Wang scite author profile

Developing a high-performance donor polymer is critical for achieving efficient non-fullerene organic solar cells (OSCs). Currently, most high-efficiency OSCs are based on a donor polymer named PM6, unfortunately, whose performance is highly sensitive to its molecular weight and thus has significant batch-to-batch variations. Here we report a donor polymer (named PM1) based on a random ternary polymerization strategy that enables highly efficient non-fullerene OSCs with efficiencies reaching 17.6%. Importantly, the PM1 polymer exhibits excellent batch-to-batch reproducibility. By including 20% of a weak electron-withdrawing thiophene-thiazolothiazole (TTz) into the PM6 polymer backbone, the resulting polymer (PM1) can maintain the positive effects (such as downshifted energy level and reduced miscibility) while minimize the negative ones (including reduced temperature-dependent aggregation property). With higher performance and greater synthesis reproducibility, the PM1 polymer has the promise to become the work-horse material for the non-fullerene OSC community.

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Multifunctional Janus Microplates Arrays Actuated by Magnetic Fields for Water/Light Switches and Bio‐Inspired Assimilatory Coloration

Jiang¹,

Hu²,

Wu³

et al. 2019

Advanced Materials

159

138

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Smart dynamic regulation structured surfaces, inspired by nature, which can dynamically change their surface topographies under external stimuli for convertible fluidic and optical properties, have recently motivated significant interest for scientific research and industrial applications. However, there is still high demand for the development of multifunctional dynamically transformable surfaces using facile preparation strategies. In this work, a type of Janus high‐aspect‐ratio magnetically responsive microplates array (HAR‐MMA) is readily fabricated by integrating a flexible laser scanning strategy, smart shape‐memory‐polymer‐based soft transfer, and a simple surface treatment. By applying external magnetic field, instantaneous and reversible deformation of Janus HAR‐MMA can be actuated, so surface wettability can be reversibly switched between superhydrophobic (158°) and hydrophilic (40°) states, based on which a novel magnetically responsive water droplet switch can be realized. Moreover, inspired by the biological assimilatory coloration of chameleons, dynamically color conversion can be skillfully realized by applying different colors on each side of the Janus HAR‐MMA. Finally, as a proof‐of‐concept demonstration in light manipulation, a HAR‐MMA is applied as an optical shutter actuated by external magnetic field with eximious controllability and repeatability. The developed multifunctional HAR‐MMA provides a versatile platform for microfluidic, biomedical, and optical applications.

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Novel variant strains of infectious bursal disease virus isolated in China

Fan

Hussain

et al. 2019

Veterinary Microbiology

123

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The impact of free-air CO2 enrichment (FACE) and nitrogen supply on grain quality of rice

Yang¹,

Wang²,

Dong³

et al. 2007

Field Crops Research

149

102

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Yulong Wang

A safe and potent anti-CD19 CAR T cell therapy

Random terpolymer based on thiophene-thiazolothiazole unit enabling efficient non-fullerene organic solar cells

Multifunctional Janus Microplates Arrays Actuated by Magnetic Fields for Water/Light Switches and Bio‐Inspired Assimilatory Coloration

Novel variant strains of infectious bursal disease virus isolated in China

The impact of free-air CO2 enrichment (FACE) and nitrogen supply on grain quality of rice

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