Jheng‐Wun Su scite author profile

A continuing trend of miniaturized and flexible electronics/optoelectronic calls for novel device architectures made by compatible fabrication techniques. However, traditional layer-to-layer structures cannot satisfy such a need. Herein, a novel monolithic optoelectronic device fabricated by a mask-free laser direct writing method is demonstrated in which in situ laser induced graphene-like materials are employed as lateral electrodes for flexible ZnS/SnO ultraviolet photodetectors. Specifically, a ZnS/SnO thin film comprised of heterogeneous ZnS/SnO nanoparticles is first coated on polyimide (PI) sheets by a solution process. Then, CO laser irradiation ablates designed areas of the ZnS/SnO thin film and converts the underneath PI into highly conductive graphene as the lateral electrodes for the monolithic photodetectors. This in situ growth method provides good interfaces between the graphene electrodes and the semiconducting ZnS/SnO resulting in high optoelectronic performance. The lateral electrode structure reduces total thickness of the devices, thus minimizing the strain and improving flexibility of the photodetectors. The demonstrated lithography-free monolithic fabrication is a simple and cost-effective method, showing a great potential for developement into roll-to-roll manufacturing of flexible electronics.

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4D printing of a self-morphing polymer driven by a swellable guest medium

Xiang

Deng

et al. 2018

Soft Matter

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There is a significant need of advanced materials that can be fabricated into functional devices with defined three-dimensional (3D) structures for application in tissue engineering, flexible electronics, and soft robotics. This need motivates an emerging four-dimensional (4D) printing technology, by which printed 3D structures consisting of active materials can transform their configurations over time in response to stimuli. Despite the ubiquity of active materials in performing self-morphing processes, their potential for 4D printing has not been fully explored to date. In this study, we demonstrate 4D printing of a commercial polymer, SU-8, which has not been reported to date in this field. The working principle is based on a self-morphing process of the printed SU-8 structures through spatial control of the swelling medium inside the polymer matrix by a modified process. To understand the self-morphing behavior, fundamental studies on the effect of the geometries including contours and filling patterns were carried out. A soft electronic device as an actuator was demonstrated to realize an application of this programmable polymer using the 3D printing technology. These studies provide a new paradigm for application of SU-8 in 4D printing, paving a new route to the exploration of more potential candidates by this demonstrated strategy.

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Bioinspired multi-responsive soft actuators controlled by laser tailored graphene structures

Deng

Zhang

et al. 2018

J. Mater. Chem. B

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Jheng‐Wun Su

Factors affecting 3D printing and post-processing capacity of cookie dough

Monolithic and Flexible ZnS/SnO₂ Ultraviolet Photodetectors with Lateral Graphene Electrodes

4D printing of a self-morphing polymer driven by a swellable guest medium

Bioinspired multi-responsive soft actuators controlled by laser tailored graphene structures

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Jheng‐Wun Su

Factors affecting 3D printing and post-processing capacity of cookie dough

Monolithic and Flexible ZnS/SnO2 Ultraviolet Photodetectors with Lateral Graphene Electrodes

4D printing of a self-morphing polymer driven by a swellable guest medium

Bioinspired multi-responsive soft actuators controlled by laser tailored graphene structures

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Product

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Monolithic and Flexible ZnS/SnO₂ Ultraviolet Photodetectors with Lateral Graphene Electrodes