Yue Yang scite author profile

A piezoresistive sensor based on ultralight and superelastic aerogel is reported to fabricate MXene/reduced graphene oxide (MX/rGO) hybrid 3D structures and utilize their pressure-sensitive characteristics. The MX/rGO aerogel not only combines the rGO's large specific surface area and the MXene's (TiC T ) high conductivity but also exhibits rich porous structure, which leads to performance better than that of single-component rGO or MXene in terms of the pressure sensor. The large nanosheets of rGO can prevent the poor oxidization of MXene by wrapping MXene inside the aerogel. More importantly, the piezoresistive sensor based on the MX/rGO aerogel shows extremely high sensitivity (22.56 kPa), fast response time (<200 ms), and good stability over 10 000 cycles. The piezoresistive sensor based on the MX/rGO hybrid 3D aerogel can easily capture the signal below 10 Pa, thus clearly testing the pulse of an adult at random. Based on its superior performance, it also demonstrates potential applications in measuring pressure distribution, distinguishing subtle strain, and monitoring healthy activity.

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Highly Self-Healable 3D Microsupercapacitor with MXene–Graphene Composite Aerogel

Yang

et al. 2018

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High-performance microsupercapacitors (MSCs) with three-dimensional (3D) structure provide an effective approach to improve the ability of energy storage. Because the electrodes with 3D structure are generally easily destroyed under mechanical deformation in practical applications, we fabricated a self-healable 3D MSC consisting of MXene (TiCT )-graphene (reduced graphene oxide, rGO) composite aerogel electrode by wrapping it with a self-healing polyurethane as an outer shell. The MXene-rGO composite aerogel combining large specific surface area of rGO and high conductivity of the MXene can not only prevent the self-restacking of the lamella structure but also resist the poor oxidization of MXene to a degree. The MSC based on a 3D MXene-rGO aerogel delivers a large area specific capacitance of 34.6 mF cm at a scan rate of 1 mV s and an outstanding cycling performance with a capacitance retention up to 91% over 15 000 cycles. The 3D MSC presents an excellent self-healing ability with specific capacitance retention of 81.7% after the fifth healing. The preparation of this self-healable 3D MSC can provide a method for designing and manufacturing next-generation long-life multifunctional electronic devices further to meet the requirements of sustainable development.

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3D hybrid porous Mxene-sponge network and its application in piezoresistive sensor

et al. 2018

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The influence of nano-sized TiO2 fillers on the morphologies and properties of PSF UF membrane

Yang

Zhang

Wang

et al. 2007

Journal of Membrane Science

614

242

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CAR exosomes derived from effector CAR-T cells have potent antitumour effects and low toxicity

Fu¹,

Lei²,

Liu³

et al. 2019

Nat Commun

280

247

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Genetically engineered T cells expressing a chimeric antigen receptor (CAR) are rapidly emerging a promising new treatment for haematological and non-haematological malignancies. CAR-T therapy can induce rapid and durable clinical responses but is associated with unique acute toxicities. Moreover, CAR-T cells are vulnerable to immunosuppressive mechanisms. Here, we report that CAR-T cells release extracellular vesicles, mostly in the form of exosomes that carry CAR on their surface. The CAR-containing exosomes express a high level of cytotoxic molecules and inhibit tumour growth. Compared with CAR-T cells, CAR exosomes do not express Programmed cell Death protein 1 (PD1), and their antitumour effect cannot be weakened by recombinant PD-L1 treatment. In a preclinical in vivo model of cytokine release syndrome, the administration of CAR exosomes is relatively safe compared with CAR-T therapy. This study supports the use of exosomes as biomimetic nanovesicles that may be useful in future therapeutic approaches against tumours.

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Bioinspired Microspines for a High-Performance Spray Ti₃C₂T_x MXene-Based Piezoresistive Sensor

et al. 2020

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Recently, wearable and flexible pressure sensors have sparked tremendous research interest, and considerable applications including human activity monitoring, biomedical research, and artificial intelligence interaction are reported. However, the large-scale preparation of low-cost, high-sensitivity piezoresistive sensors still face huge challenges. Inspired by the specific structures and excellent metal conductivity of a family of two-dimensional (2D) transition-metal carbides and nitrides (MXene) and the high-performance sensing effect of human skin including randomly distributed microstructural receptors, we fabricate a highly sensitive MXene-based piezoresistive sensor with bioinspired microspinous microstructures formed by a simple abrasive paper stencil printing process. The obtained piezoresistive sensor shows high sensitivity (151.4 kPa −1 ), relatively short response time (<130 ms), subtle pressure detection limit of 4.4 Pa, and excellent cycle stability over 10,000 cycles. The mechanism of the high sensitivity of the sensor is dynamically revealed from the structural perspective by means of in situ electron microscopy experiment and finite element simulation. Bioinspired microspinous microstructures can effectively improve the sensitivity of the pressure sensor and the limit of the detectable subtle pressure. In practice, the sensor shows great performance in monitoring human physiological signals, detecting quantitatively pressure distributions, and remote monitoring of intelligent robot motion in real time.

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FUNDC 1 regulates mitochondrial dynamics at the ER –mitochondrial contact site under hypoxic conditions

et al. 2016

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In hypoxic cells, dysfunctional mitochondria are selectively removed by a specialized autophagic process called mitophagy. The ERmitochondrial contact site (MAM) is essential for fission of mitochondria prior to engulfment, and the outer mitochondrial membrane protein FUNDC1 interacts with LC3 to recruit autophagosomes, but the mechanisms integrating these processes are poorly understood. Here, we describe a new pathway mediating mitochondrial fission and subsequent mitophagy under hypoxic conditions. FUNDC1 accumulates at the MAM by associating with the ER membrane protein calnexin. As mitophagy proceeds, FUNDC1/ calnexin association attenuates and the exposed cytosolic loop of FUNDC1 interacts with DRP1 instead. DRP1 is thereby recruited to the MAM, and mitochondrial fission then occurs. Knockdown of FUNDC1, DRP1, or calnexin prevents fission and mitophagy under hypoxic conditions. Thus, FUNDC1 integrates mitochondrial fission and mitophagy at the interface of the MAM by working in concert with DRP1 and calnexin under hypoxic conditions in mammalian cells.

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Yue Yang

CoNi@SiO₂@TiO₂ and CoNi@Air@TiO₂ Microspheres with Strong Wideband Microwave Absorption

3D Synergistical MXene/Reduced Graphene Oxide Aerogel for a Piezoresistive Sensor

Highly Self-Healable 3D Microsupercapacitor with MXene–Graphene Composite Aerogel

3D hybrid porous Mxene-sponge network and its application in piezoresistive sensor

The influence of nano-sized TiO2 fillers on the morphologies and properties of PSF UF membrane

CAR exosomes derived from effector CAR-T cells have potent antitumour effects and low toxicity

Bioinspired Microspines for a High-Performance Spray Ti₃C₂T_x MXene-Based Piezoresistive Sensor

FUNDC 1 regulates mitochondrial dynamics at the ER –mitochondrial contact site under hypoxic conditions

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Yue Yang

CoNi@SiO2@TiO2 and CoNi@Air@TiO2 Microspheres with Strong Wideband Microwave Absorption

3D Synergistical MXene/Reduced Graphene Oxide Aerogel for a Piezoresistive Sensor

Highly Self-Healable 3D Microsupercapacitor with MXene–Graphene Composite Aerogel

3D hybrid porous Mxene-sponge network and its application in piezoresistive sensor

The influence of nano-sized TiO2 fillers on the morphologies and properties of PSF UF membrane

CAR exosomes derived from effector CAR-T cells have potent antitumour effects and low toxicity

Bioinspired Microspines for a High-Performance Spray Ti3C2Tx MXene-Based Piezoresistive Sensor

FUNDC 1 regulates mitochondrial dynamics at the ER –mitochondrial contact site under hypoxic conditions

Contact Info

Product

Resources

About

CoNi@SiO₂@TiO₂ and CoNi@Air@TiO₂ Microspheres with Strong Wideband Microwave Absorption

Bioinspired Microspines for a High-Performance Spray Ti₃C₂T_x MXene-Based Piezoresistive Sensor