Jiangting Wang scite author profile

Yarn-shaped supercapacitors (YSCs) once integrated into fabrics provide promising energy storage solutions to the increasing demand of wearable and portable electronics. In such device format, however, it is a challenge to achieve outstanding electrochemical performance without compromising flexibility. Here, MXene-based YSCs that exhibit both flexibility and superior energy storage performance by employing a biscrolling approach to create flexible yarns from highly delaminated and pseudocapacitive MXene sheets that are trapped within helical yarn corridors are reported. With specific capacitance and energy and power densities values exceeding those reported for any YSCs, this work illustrates that biscrolled MXene yarns can potentially provide the conformal energy solution for powering electronics beyond just the form factor of flexible YSCs.

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Investigation of precipitate hardening of slip and twinning in Mg5%Zn by micropillar compression

Wang

Stanford

2015

Acta Materialia

106

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Bulk Hexagonal Boron Nitride with a Quasi‐Isotropic Thermal Conductivity

Mateti

Yang

et al. 2018

Adv Funct Materials

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Hexagonal boron nitride (BN) is electrically insulating and has a high in‐plane thermal conductivity. However, it has a very low cross‐plane thermal conductivity which limits its application for efficient heat dissipation. Here, large BN pellets with a quasi‐isotropic thermal conductivity are produced from BN nanosheets using a spark plasma sintering (SPS) technique. The BN pellets have the same thermal conductivity from both perpendicular and parallel directions to the pellet surface. The high quasi‐isotropic thermal conductivity of the bulk BN is attributed to a quasi‐isotropic structure formed during the SPS process in which the charged BN nanosheets form large sheets in all directions under two opposite forces of SPS compression and electric field. The pellet sintered at 2300 °C has a very high cross‐section thermal conductivity of 280 W m−1 K−1 (parallel to the SPS pressing direction) and exhibits superior heat dissipation performance due to more efficient heat transfer in the vertical direction.

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Boron nitride nanotube reinforced titanium metal matrix composites with excellent high-temperature performance

Bhuiyan

Wang

et al. 2017

J. Mater. Res.

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The effect of strain on interphase precipitation characteristics in a Ti-Mo steel

et al. 2019

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Quantification of precipitate hardening of twin nucleation and growth in Mg and Mg-5Zn using micro-pillar compression

et al. 2019

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Interfacial reactions between titanium and boron nitride nanotubes

Bhuiyan

Wang

et al. 2017

Scripta Materialia

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Transformation from cluster to nano-precipitate in microalloyed ferritic steel

et al. 2019

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Jiangting Wang

High‐Performance Biscrolled MXene/Carbon Nanotube Yarn Supercapacitors

Investigation of precipitate hardening of slip and twinning in Mg5%Zn by micropillar compression

Bulk Hexagonal Boron Nitride with a Quasi‐Isotropic Thermal Conductivity

Boron nitride nanotube reinforced titanium metal matrix composites with excellent high-temperature performance

The effect of strain on interphase precipitation characteristics in a Ti-Mo steel

Quantification of precipitate hardening of twin nucleation and growth in Mg and Mg-5Zn using micro-pillar compression

Interfacial reactions between titanium and boron nitride nanotubes

Transformation from cluster to nano-precipitate in microalloyed ferritic steel

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