Mxene Hybrids(Mxene 杂种)研究综述
Mxene Hybrids Mxene 杂种 - In this research, a flower-like nickel/cobalt layered double hydroxide (NiCo-LDH) was synthesized and mixed with flaky MXene to obtain a series of NiCo-LDH/MXene hybrids. [1] In this study, the Ni-MXene hybrids were firstly fabricated by molecular-level mixing and chemical reduction. [2] Theoretical calculations regarding the Co adsorption affinities at various N-doping sites elucidated the synergistic effects of N-C/MXene hybrids for boosting the reaction kinetics and Co adsorption behavior in this system. [3] Herein, one-dimensional (1D) attapulgite (ATP) nanomaterials were introduced onto the surface of MXene to form ATP–MXene hybrids, which successfully improved the mechanical properties of the epoxy composites. [4] The resulting wearable composite coating with ultralow loading of plasmonic AgNP@MXene hybrids (0. [5] Herein, CeO2/Ti3C2-MXene hybrids were prepared by the in-situ growth of cube-like CeO2 using ultrathin Ti3C2-MXene nanosheets as a two-dimensional platform via a simple hydrothermal route. [6]在这项研究中,合成了一种花状镍/钴层状双氢氧化物 (NiCo-LDH),并与片状 MXene 混合,得到了一系列 NiCo-LDH/MXene 杂化物。 [1] 在这项研究中,Ni-MXene 杂化物首先通过分子水平混合和化学还原制备。 [2] 关于不同 N 掺杂位点的 Co 吸附亲和力的理论计算阐明了 N-C/MXene 杂化物在促进该系统中的反应动力学和 Co 吸附行为方面的协同作用。 [3] 在此,将一维 (1D) 凹凸棒石 (ATP) 纳米材料引入 MXene 表面形成 ATP-MXene 杂化物,成功提高了环氧树脂复合材料的机械性能。 [4] 由此产生的可穿戴复合涂层具有超低负载的等离子体 AgNP@MXene 杂化物 (0. [5] 在此,CeO2/Ti3C2-MXene 杂化物是通过使用超薄 Ti3C2-MXene 纳米片作为二维平台,通过简单的水热路线原位生长立方体状 CeO2 制备的。 [6]
Ti3c2 Mxene Hybrids
Herein, a dual-quenching ternary ECL immunosensor was designed for PSA detection based on graphitic carbon nitride quantum dots (g-CNQDs, as an emitter), potassium persulfate (K2S2O8, as a coreactant), and silver nanoparticles doped multilayer Ti3C2 MXene hybrids (Ag@TCM, as a coreaction accelerator). [1] Ultra-light carboxylic functionalized multi-walled carbon nanotubes (CNTs-COOH) and Ti3C2 MXene hybrids modified sodium alginate (CNTs/Ti3C2-SA) based composite foams were prepared through ice-templated freeze-drying method. [2]在此,基于石墨氮化碳量子点(g-CNQDs,作为发射体)、过硫酸钾(K2S2O8,作为共反应物)和银纳米粒子掺杂的多层 Ti3C2 MXene 杂化物,设计了一种用于 PSA 检测的双淬火三元 ECL 免疫传感器。 Ag@TCM,作为共同作用加速器)。 [1] 采用冰模板冷冻干燥法制备了超轻羧基功能化多壁碳纳米管(CNTs-COOH)和Ti3C2 MXene杂化改性海藻酸钠(CNTs/Ti3C2-SA)基复合泡沫材料。 [2]