Meifang Zhu scite author profile

Ongoing technological advances in diverse fields including portable electronics, transportation, and green energy are often hindered by the insufficient capability of energy-storage devices. By taking advantage of two different electrode materials, asymmetric supercapacitors can extend their operating voltage window beyond the thermodynamic decomposition voltage of electrolytes while enabling a solution to the energy storage limitations of symmetric supercapacitors. This review provides comprehensive knowledge to this field. We first look at the essential energy-storage mechanisms and performance evaluation criteria for asymmetric supercapacitors to understand the wide-ranging research conducted in this area. Then we move to the recent progress made for the design and fabrication of electrode materials and the overall structure of asymmetric supercapacitors in different categories. We also highlight several key scientific challenges and present our perspectives on enhancing the electrochemical performance of future asymmetric supercapacitors.

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Hydrophilic Cu₉S₅ Nanocrystals: A Photothermal Agent with a 25.7% Heat Conversion Efficiency for Photothermal Ablation of Cancer Cells in Vivo

Tian

et al. 2011

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Photothermal ablation (PTA) therapy has a great potential to revolutionize conventional therapeutic approaches for cancers, but it has been limited by difficulties in obtaining biocompatible photothermal agents that have low cost, small size (<100 nm), and high photothermal conversion efficiency. Herein, we have developed hydrophilic plate-like Cu(9)S(5) nanocrystals (NCs, a mean size of ∼70 nm × 13 nm) as a new photothermal agent, which are synthesized by combining a thermal decomposition and ligand exchange route. The aqueous dispersion of as-synthesized Cu(9)S(5) NCs exhibits an enhanced absorption (e.g., ∼1.2 × 10(9) M(-1) cm(-1) at 980 nm) with the increase of wavelength in near-infrared (NIR) region, which should be attributed to localized surface plasmon resonances (SPR) arising from p-type carriers. The exposure of the aqueous dispersion of Cu(9)S(5) NCs (40 ppm) to 980 nm laser with a power density of 0.51 W/cm(2) can elevate its temperature by 15.1 °C in 7 min; a 980 nm laser heat conversion efficiency reaches as high as 25.7%, which is higher than that of the as-synthesized Au nanorods (23.7% from 980 nm laser) and the recently reported Cu(2-x)Se NCs (22% from 808 nm laser). Importantly, under the irradiation of 980 nm laser with the conservative and safe power density over a short period (∼10 min), cancer cells in vivo can be efficiently killed by the photothermal effects of the Cu(9)S(5) NCs. The present finding demonstrates the promising application of the Cu(9)S(5) NCs as an ideal photothermal agent in the PTA of in vivo tumor tissues.

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Hydrophilic Flower‐Like CuS Superstructures as an Efficient 980 nm Laser‐Driven Photothermal Agent for Ablation of Cancer Cells

et al. 2011

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Origami-inspired active graphene-based paper for programmable instant self-folding walking devices

et al. 2015

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Ultrathin PEGylated W₁₈O₄₉ Nanowires as a New 980 nm‐Laser‐Driven Photothermal Agent for Efficient Ablation of Cancer Cells In Vivo

et al. 2013

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A new photothermal coupling agent for photothermal ablation (PTA) therapy of tumors is developed based on ultrathin PEGylated W18O49 nanowires. After being injected with the nanowire solution, the in vivo tumors exhibit a rapid temperature rise to 50.0 ± 0.5 °C upon irradiation with NIR laser light at a safe, low intensity (0.72 W cm(-2)) for 2 min (left-hand mouse in the figure),), resulting in the efficient PTA of cancer cells in vivo in 10 min.

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Multifunctional dendrimer-entrapped gold nanoparticles for dual mode CT/MR imaging applications

et al. 2013

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Experimental study on relationship between jet instability and formation of beaded fibers during electrospinning

et al. 2005

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Ultrafine fibers produced by electrospinning often exhibit bead-on-string structures, which have generally been considered to be undesirable "by-products" or defects. Theoretical analysis in the literature predicted three types of instabilities for an electrically driven jet: the axisymmetric Rayleigh instability, the electric field-induced axisymmetric, and whipping instability. The process of bead formation revealed that the formation of a beaded structure resulted from axisymmetric deformation and flow of the jet. Applied voltage, solution surface tension, and conductivity (or jet charge density carried by the moving jet) were theoretically demonstrated to be important for jet axisymmetric instabilities. Experimental results revealed that these parameters influenced the formation of beaded fibers in the same manner as they did for the axisymmetric instabilities. As a result, the axisymmetric instabilities were considered to be the most likely mechanism of beaded fibers formation during electrospinning. POLYM. ENG. SCI., 45:704 -709, 2005.

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Highly Conductive, Flexible, and Compressible All‐Graphene Passive Electronic Skin for Sensing Human Touch

et al. 2014

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A facile and passive multiply flexible thin-film sensor is demonstrated based on thermoelectric effects in graphene. The sensor is highly conductive, free-standing, flexible, and elastic. It senses heat and cold, and measures heated/cooled areas; it also discerns human touch from other pressures, locates human touch, and measures pressure levels. All of these sensing abilities are demonstrated without any internal/external power supply.

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Meifang Zhu

Design and Mechanisms of Asymmetric Supercapacitors

Hydrophilic Cu₉S₅ Nanocrystals: A Photothermal Agent with a 25.7% Heat Conversion Efficiency for Photothermal Ablation of Cancer Cells in Vivo

Hydrophilic Flower‐Like CuS Superstructures as an Efficient 980 nm Laser‐Driven Photothermal Agent for Ablation of Cancer Cells

Origami-inspired active graphene-based paper for programmable instant self-folding walking devices

Ultrathin PEGylated W₁₈O₄₉ Nanowires as a New 980 nm‐Laser‐Driven Photothermal Agent for Efficient Ablation of Cancer Cells In Vivo

Multifunctional dendrimer-entrapped gold nanoparticles for dual mode CT/MR imaging applications

Experimental study on relationship between jet instability and formation of beaded fibers during electrospinning

Highly Conductive, Flexible, and Compressible All‐Graphene Passive Electronic Skin for Sensing Human Touch

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About

Meifang Zhu

Design and Mechanisms of Asymmetric Supercapacitors

Hydrophilic Cu9S5 Nanocrystals: A Photothermal Agent with a 25.7% Heat Conversion Efficiency for Photothermal Ablation of Cancer Cells in Vivo

Hydrophilic Flower‐Like CuS Superstructures as an Efficient 980 nm Laser‐Driven Photothermal Agent for Ablation of Cancer Cells

Origami-inspired active graphene-based paper for programmable instant self-folding walking devices

Ultrathin PEGylated W18O49 Nanowires as a New 980 nm‐Laser‐Driven Photothermal Agent for Efficient Ablation of Cancer Cells In Vivo

Multifunctional dendrimer-entrapped gold nanoparticles for dual mode CT/MR imaging applications

Experimental study on relationship between jet instability and formation of beaded fibers during electrospinning

Highly Conductive, Flexible, and Compressible All‐Graphene Passive Electronic Skin for Sensing Human Touch

Contact Info

Product

Resources

About

Hydrophilic Cu₉S₅ Nanocrystals: A Photothermal Agent with a 25.7% Heat Conversion Efficiency for Photothermal Ablation of Cancer Cells in Vivo

Ultrathin PEGylated W₁₈O₄₉ Nanowires as a New 980 nm‐Laser‐Driven Photothermal Agent for Efficient Ablation of Cancer Cells In Vivo