Mxene Hydrogel(Mxene 水凝胶)研究综述
Mxene Hydrogel Mxene 水凝胶 - MXene hydrogel-based strain sensors also displayed negligible hysteresis in electromechanical performance, typical frequent-independent feature and rapid response time to external stimuli. [1] It is remarkable that compared with the GO and MXene hydrogels with the same agent content (1. [2] However, MXene is easy to accumulate in the hydrogel system, and there are rare articles on MXene hydrogels. [3] Owing to the inherent photothermal behavior of Ti3C3Tx and the heterogeneous phase-transforming features of polymers, a polymer-MXene hydrogel is demonstrated to exhibit distinctive thermosensation-based actuation upon near-infrared illumination, accompanied by rapid shape transformation. [4] Moreover, using controllable drying processes, MXene hydrogels are transformed into different monoliths with structures ranging from a loosely organized porous aerogel to a dense solid. [5]基于 MXene 水凝胶的应变传感器在机电性能、典型的频率无关特征和对外部刺激的快速响应时间方面也表现出可忽略不计的滞后。 [1] 值得注意的是,与具有相同试剂含量的 GO 和 MXene 水凝胶相比(1. [2] 但是,MXene 很容易在水凝胶体系中积累,关于 MXene 水凝胶的文章也很少见。 [3] 由于 Ti3C3Tx 固有的光热行为和聚合物的非均相相变特性,聚合物-MXene 水凝胶被证明在近红外照明下表现出独特的基于热感应的驱动,并伴随着快速的形状转变。 [4] 此外,使用可控的干燥过程,MXene 水凝胶被转化为不同的整体,其结构从松散的多孔气凝胶到致密的固体。 [5]
mxene hydrogel microfiber Mxene 水凝胶超细纤维
Based on these features, it is believed that these elastic MXene hydrogel microfibers have high potential for rapid sensing and diagnosis of joint diseases. [1] The resultant hollow straight and helical MXene hydrogel microfibers were with highly controllable morphologies and package features. [2]基于这些特征,相信这些弹性 MXene 水凝胶微纤维在快速传感和诊断关节疾病方面具有很高的潜力。 [1] 得到的中空直和螺旋 MXene 水凝胶微纤维具有高度可控的形态和包装特征。 [2]