Hongwei Zhu scite author profile

Carbon nanotube sponges are synthesized by chemical vapor deposition, in which nanotubes are self‐assembled into a three‐dimensionally interconnected framework. The sponges are very light, highly porous, hydrophobic in pristine form, and can be elastically and reversibly deformed into any shape. The sponges can float on water surfaces and absorb large‐area spreading oil films (see images), suggesting promising environmental applications.

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Graphene‐On‐Silicon Schottky Junction Solar Cells

Zhu

et al. 2010

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Wearable and Highly Sensitive Graphene Strain Sensors for Human Motion Monitoring

Wang

Yang

et al. 2014

Adv Funct Materials

986

690

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Sensing strain of soft materials in small scale has attracted increasing attention. In this work, graphene woven fabrics (GWFs) are explored for highly sensitive sensing. A fl exible and wearable strain sensor is assembled by adhering the GWFs on polymer and medical tape composite fi lm. The sensor exhibits the following features: ultra-light, relatively good sensitivity, high reversibility, superior physical robustness, easy fabrication, ease to follow human skin deformation, and so on. Some weak human motions are chosen to test the notable resistance change, including hand clenching, phonation, expression change, blink, breath, and pulse. Because of the distinctive features of high sensitivity and reversible extensibility, the GWFs based piezoresistive sensors have wide potential applications in fi elds of the displays, robotics, fatigue detection, body monitoring, and so forth.

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Hydrothermal Synthesis and Pseudocapacitance Properties of MnO₂ Nanostructures

et al. 2005

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The effect of varying the hydrothermal time to synthesize manganese oxide (MnO(2)) nanostructures was investigated along with their influence on structural, morphological, compositional, and electrochemical properties in supercapacitor electrode materials. XRD and TEM studies showed that the MnO(2) prepared in shorter hydrothermal dwell time was a mixture of amorphous and nanocrystalline particles, and there was an evolution of crystallinity of the nanostructures as the dwell time increased from 1 to 18 h. Interestingly, SEM, TEM, and HRTEM revealed a variety of structures ranging from nanostructured surface with a distinct platelike morphology to nanorods depending upon the hydrothermal reaction time employed during the preparation of the manganese oxide: increasing the amount of individual nanorods in the materials prepared with longer hydrothermal reaction time. The surface area of the synthesized nanomaterials varied from 100 to 150 m(2)/g. Electrochemical properties were evaluated using cyclic voltammetry (CV) and galvanostatic charge-discharge studies, and the capacitance values were in the range 72-168 F/g depending upon synthesis conditions. The formation mechanism of the nanorods and their impact on the specific capacitance were discussed in detail.

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Hongwei Zhu

Electrolysis of water on oxide surfaces

Carbon Nanotube Sponges

Graphene‐On‐Silicon Schottky Junction Solar Cells

Wearable and Highly Sensitive Graphene Strain Sensors for Human Motion Monitoring

Hydrothermal Synthesis and Pseudocapacitance Properties of MnO₂ Nanostructures

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Hongwei Zhu

Electrolysis of water on oxide surfaces

Carbon Nanotube Sponges

Graphene‐On‐Silicon Schottky Junction Solar Cells

Wearable and Highly Sensitive Graphene Strain Sensors for Human Motion Monitoring

Hydrothermal Synthesis and Pseudocapacitance Properties of MnO2 Nanostructures

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Product

Resources

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Hydrothermal Synthesis and Pseudocapacitance Properties of MnO₂ Nanostructures