Guangjie Zhang scite author profile

Paper-based (PB) green electronics is an emerging and potentially game-changing technology due to ease of recycling/disposal, the economics of manufacture and the applicability to flexible electronics. Herein, new-type printable PB strain sensors (PPBSSs) from graphite glue (graphite powder and methylcellulose) have been fabricated. The graphite glue is exposed to thermal annealing to produce surface micro/nano cracks, which are very sensitive to compressive or tensile strain. The devices exhibit a gauge factor of 804.9, response time of 19.6 ms and strain resolution of 0.038%, all performance indicators attaining and even surpassing most of the recently reported strain sensors. Due to the distinctive sensing properties, flexibility and robustness, the PPBSSs are suitable for monitoring of diverse conditions such as structural strain, vibrational motion, human muscular movements and visual control.

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An innovative design of perovskite solar cells with Al 2 O 3 inserting at ZnO/perovskite interface for improving the performance and stability

Liao

Zhang

et al. 2016

Nano Energy

166

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Novel Piezoelectric Paper‐Based Flexible Nanogenerators Composed of BaTiO₃ Nanoparticles and Bacterial Cellulose

et al. 2015

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A piezoelectric paper based on BaTiO3 (BTO) nanoparticles and bacterial cellulose (BC) with excellent output properties for application of nanogenerators (NGs) is reported. A facile and scalable vacuum filtration method is used to fabricate the piezoelectric paper. The BTO/BC piezoelectric paper based NG shows outstanding output performance with open‐circuit voltage of 14 V and short‐circuit current density of 190 nA cm−2. The maximum power density generated by this unique BTO/BC structure is more than ten times higher than BTO/polydimethylsiloxane structure. In bending conditions, the NG device can generate output voltage of 1.5 V, which is capable of driving a liquid crystal display screen. The improved performance can be ascribed to homogeneous distribution of piezoelectric BTO nanoparticles in the BC matrix as well as the enhanced stress on piezoelectric nanoparticles implemented by the unique percolated networks of BC nanofibers. The flexible BTO/BC piezoelectric paper based NG is lightweight, eco‐friendly, and cost‐effective, which holds great promises for achieving wearable or implantable energy harvesters and self‐powered electronics.

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Self-powered artificial electronic skin for high-resolution pressure sensing

et al. 2017

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Nutrient transformations during composting of pig manure with bentonite

Li¹,

Wang²,

Zhang³

et al. 2012

Bioresource Technology

327

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Guangjie Zhang

High output piezoelectric nanocomposite generators composed of oriented BaTiO3 NPs@PVDF

A highly shape-adaptive, stretchable design based on conductive liquid for energy harvesting and self-powered biomechanical monitoring

Advancing osmotic power generation by covalent organic framework monolayer

Flexible and printable paper-based strain sensors for wearable and large-area green electronics

An innovative design of perovskite solar cells with Al 2 O 3 inserting at ZnO/perovskite interface for improving the performance and stability

Novel Piezoelectric Paper‐Based Flexible Nanogenerators Composed of BaTiO₃ Nanoparticles and Bacterial Cellulose

Self-powered artificial electronic skin for high-resolution pressure sensing

Nutrient transformations during composting of pig manure with bentonite

Contact Info

Product

Resources

About

Guangjie Zhang

High output piezoelectric nanocomposite generators composed of oriented BaTiO3 NPs@PVDF

A highly shape-adaptive, stretchable design based on conductive liquid for energy harvesting and self-powered biomechanical monitoring

Advancing osmotic power generation by covalent organic framework monolayer

Flexible and printable paper-based strain sensors for wearable and large-area green electronics

An innovative design of perovskite solar cells with Al 2 O 3 inserting at ZnO/perovskite interface for improving the performance and stability

Novel Piezoelectric Paper‐Based Flexible Nanogenerators Composed of BaTiO3 Nanoparticles and Bacterial Cellulose

Self-powered artificial electronic skin for high-resolution pressure sensing

Nutrient transformations during composting of pig manure with bentonite

Contact Info

Product

Resources

About

Novel Piezoelectric Paper‐Based Flexible Nanogenerators Composed of BaTiO₃ Nanoparticles and Bacterial Cellulose