Mxene Ti3c2(Mxene Ti3c2)研究综述
Mxene Ti3c2 Mxene Ti3c2 - To overcome this challenge, MXene Ti3C2-incorporated UiO-66-NH2 (TUN) cylindrical monoliths (13 mm diameter, 4 mm thickness) with vertically aligned porous networks have been prepared and exhibited greatly enhanced solar heating capacity and atmospheric water adsorption/desorption kinetics. [1] Wdeemonstrate an all-fiber temperature sensor utilizing a cascaded Mach- Zehnder interferometer and ring resonator with MXene Ti3C2Tx, showing a high conversion efficiency of 0. [2] To further improve the reaction rate, well-defined heterostructures based on plasmonic gold nanoparticles on MXene Ti3C2Tx nanosheets (Au NPs@Ti3C2Tx) were rationally designed and systematically investigated to improve the performance of the oxygen evolution reaction (OER). [3] However, two-dimensional (2D) MXene Ti3C2Tx nanosheet is liable to stack together and lose the high specific surface area, which limits its gas sensing performance. [4] MXene Ti3C2, as the emerging member of two-dimensional (2D) materials family, has been applied to memristor and exhibited fast pulse modulation time and miniaturization size. [5] MXene Ti3C2Tx have been used in flexible electronic devices for their unique properties such as high conductivity, excellent mechanical performance, flexibility, and good hydrophilicity, but less research has focused on MXene-based cotton fabric strain sensors. [6] The commonly used MXene Ti3C2Tx was prepared by selective etching and its structure and morphology were studied in detail. [7] We have experimentally demonstrated the mode-locked and Q-switched fibre lasers based on MXene Ti3C2T x as a saturable absorber (SA). [8] Herein, a surface-tuned two-dimensional (2D) MXene Ti3C2Tx scaffold as a robust skeleton is developed to facilitate the uniform Zn stripping/plating. [9] MXene Ti3C2-TiO2 composites fabricated via hydrogen peroxide oxidation were applied as sensing material for the antioxidants interaction study. [10] MXene Ti3C2/TiO2 hybrids were successfully synthesized through a simple calcination of F-terminated Ti3C2. [11] Here, we use two-dimensional transition metal carbides (MXene Ti3C2Tx) with various termination groups (Tx) to tune the work function (WF) of the perovskite absorber and the TiO2 electron transport layer (ETL), and to engineer the perovskite/ETL interface. [12] We report simple and compact all-fiber erbium-doped soliton and dispersion-managed soliton femtosecond lasers mode-locked by the MXene Ti3C2Tx. [13] In this work, in order to further improve the photocatalytic property of BiOBrxI1−x, MXene Ti3C2Tx material was used to construct heterostructural photocatalyst with BiOBrxI1−x. [14] The authors mixed the MXene Ti3C2Tx (where Tx is a functional group) with carboxymethylated cellulose nanofibrils (CNFs), which in their film form have high toughness and can withstand large strains. [15] Here, we demonstrate the potential of MXene Ti3C2 and its composite with Polyaniline (PANI) for EMI shielding. [16] The synergistic effect between the components of NiCoP and MXene Ti3C2 with high structural stability and electrochemical activity leads to excellent electrochemical performance, retaining a specific capacity of 261. [17]为了克服这一挑战,已制备了具有垂直排列的多孔网络的 MXene Ti3C2 并入 UiO-66-NH2 (TUN) 圆柱形单块(直径 13 毫米,厚度 4 毫米),并表现出显着增强的太阳能加热能力和大气水吸附/解吸动力学. [1] W演示了一种全光纤温度传感器,该传感器利用级联马赫-曾德干涉仪和环形谐振器与 MXene Ti3C2Tx,显示出 0 的高转换效率。 [2] 为了进一步提高反应速率,基于 MXene Ti3C2Tx 纳米片 (Au NPs@Ti3C2Tx) 上的等离子金纳米颗粒的明确异质结构被合理设计和系统研究,以提高析氧反应 (OER) 的性能。 [3] 然而,二维 (2D) MXene Ti3C2Tx 纳米片易于堆叠在一起并失去高比表面积,这限制了其气敏性能。 [4] MXene Ti3C2 作为二维 (2D) 材料家族的新兴成员,已应用于忆阻器,并表现出快速的脉冲调制时间和小型化尺寸。 [5] MXene Ti3C2Tx 因其独特的性能(例如高导电性、优异的机械性能、柔韧性和良好的亲水性)而被用于柔性电子设备,但很少有研究集中在基于 MXene 的棉织物应变传感器上。 [6] 通过选择性刻蚀制备常用的MXene Ti3C2Tx,并对其结构和形貌进行了详细研究。 [7] 我们已经通过实验证明了基于 MXene Ti3C2T x 作为可饱和吸收体 (SA) 的锁模和调Q光纤激光器。 [8] 在此,开发了一种表面调谐的二维 (2D) MXene Ti3C2Tx 支架作为坚固的骨架,以促进均匀的 Zn 剥离/电镀。 [9] 通过过氧化氢氧化制备的 MXene Ti3C2-TiO2 复合材料用作抗氧化剂相互作用研究的传感材料。 [10] MXene Ti3C2/TiO2 杂化物是通过对 F 封端的 Ti3C2 进行简单煅烧而成功合成的。 [11] 在这里,我们使用具有各种端基 (Tx) 的二维过渡金属碳化物 (MXene Ti3C2Tx) 来调整钙钛矿吸收剂和 TiO2 电子传输层 (ETL) 的功函数 (WF),并设计钙钛矿/ETL界面。 [12] 我们报告了由 MXene Ti3C2Tx 锁模的简单紧凑的全光纤掺铒孤子和色散管理孤子飞秒激光器。 [13] 在这项工作中,为了进一步提高 BiOBrxI1-x 的光催化性能,使用 MXene Ti3C2Tx 材料构建了 BiOBrxI1-x 的异质结构光催化剂。 [14] 作者将 MXene Ti3C2Tx(其中 Tx 是一个官能团)与羧甲基化纤维素纳米纤丝 (CNF) 混合在一起,它们的薄膜形式具有高韧性并且可以承受大应变。 [15] 在这里,我们展示了 MXene Ti3C2 及其与聚苯胺 (PANI) 的复合材料在 EMI 屏蔽方面的潜力。 [16] NiCoP 和 MXene Ti3C2 具有高结构稳定性和电化学活性的成分之间的协同效应导致优异的电化学性能,保持 261 的比容量。 [17]
2d Mxene Ti3c2 2d Mxene Ti3c2
2D MXene Ti3C2 has been considered a good carbonaceous nanomaterial for designing heterojunction, while the original surface groups and stacked structure limit the electron-hole separation. [1] Polymer composites of emerging nanomaterials such as 2D MXene Ti3C2Tx are promising candidates for manufacturing high-performance electromagnetic wave absorption materials. [2] Herein, an MXene-based melamine sponge (MS) was facilely fabricated by hydrogen bonding interaction between the amino groups on the skeleton of the MS and the polar groups on the surface of the as-exfoliated 2D MXene Ti3C2Tx nanosheets. [3] High electrical conductivity and strong absorption of electromagnetic radiation in the terahertz (THz) frequency range by metallic 2D MXene Ti3C2Ty make it a promising material for electromagnetic interference shielding, THz detectors and transparent conducting electrodes. [4] In this work, 2D MXene Ti3C2 was introduced into Mg(BH4)2 by a facile ball-milling method in order to improve its dehydrogenation properties. [5] This work provides a promising approach to prepare the ultrathin and layered 2D MXene Ti3C2Tx membrane for separation of stable emulsified oil-in-water mixtures separation. [6]2D MXene Ti3C2 被认为是设计异质结的良好碳纳米材料,而原始的表面基团和堆叠结构限制了电子-空穴的分离。 [1] 2D MXene Ti3C2Tx 等新兴纳米材料的聚合物复合材料是制造高性能电磁波吸收材料的有希望的候选材料。 [2] 在此,通过 MS 骨架上的氨基与剥离后的 2D MXene Ti3C2Tx 纳米片表面上的极性基团之间的氢键相互作用,轻松地制造了基于 MXene 的三聚氰胺海绵 (MS)。 [3] 金属二维 MXene Ti3C2Ty 的高导电性和对太赫兹 (THz) 频率范围内电磁辐射的强吸收使其成为电磁干扰屏蔽、太赫兹探测器和透明导电电极的有前途的材料。 [4] 在这项工作中,通过简便的球磨方法将 2D MXene Ti3C2 引入 Mg(BH4)2 中,以改善其脱氢性能。 [5] 这项工作为制备用于稳定乳化水包油混合物分离的超薄层状二维 MXene Ti3C2Tx 膜提供了一种有前景的方法。 [6]
Dimensional Mxene Ti3c2 三维 Mxene Ti3c2
A commercial aromatic membrane was modified by grafting nitrogen-doped graphene oxide quantum dots (N-GOQDs) to enhance chlorine resistance, embedding two-dimensional MXene Ti3C2Tx, introducing synthetically reductive thioether units and oxidized graphitic carbon nitride (OGCN). [1] Here, flexible surface-enhanced Raman scattering (SERS) substrates composed of gold nanoparticles (AuNPs) and two-dimensional MXene Ti3C2TX nanosheets have been designed. [2] The microwave absorption of two-dimensional MXene Ti3C2Tx, prepared by exfoliating the Ti3AlC2 phase with a solution of HCl and LiF, was investigated in the frequency range of 2–18 GHz. [3] Herein, we demonstrate a simple, rapid and highly-sensitive sensing platform based on ultrathin two-dimensional MXene Ti3C2 nanosheets (Ti3C2 NSs) for selective analysis of Human papillomavirus (HPV), a major human pathogens and causative agents of cervical cancer. [4] Herein, the EM wave absorption properties of two-dimensional MXene Ti3C2Tx, fabricated by etching the Ti3AlC2 phase with an enchant of HCl and LiF, was thoroughly investigated over a frequency range of 2–18 GHz. [5]通过接枝氮掺杂氧化石墨烯量子点 (N-GOQDs) 以增强耐氯性,嵌入二维 MXene Ti3C2Tx,引入合成还原硫醚单元和氧化石墨碳氮化物 (OGCN),对商业芳香膜进行了改性。 [1] 在这里,设计了由金纳米粒子 (AuNPs) 和二维 MXene Ti3C2TX 纳米片组成的柔性表面增强拉曼散射 (SERS) 基板。 [2] 在 2-18GHz 的频率范围内研究了二维 MXene Ti3C2Tx 的微波吸收,它是通过用 HCl 和 LiF 溶液剥离 Ti3AlC2 相制备的。 [3] 在此,我们展示了一种基于超薄二维 MXene Ti3C2 纳米片 (Ti3C2 NSs) 的简单、快速和高灵敏度的传感平台,用于选择性分析人乳头瘤病毒 (HPV),这是一种主要的人类病原体和宫颈癌的病原体。 [4] 在此,我们在 2-18GHz 的频率范围内彻底研究了二维 MXene Ti3C2Tx 的 EM 波吸收特性,该特性是通过用 HCl 和 LiF 蚀刻 Ti3AlC2 相制成的。 [5]
Layer Mxene Ti3c2
Based on the experimental results, a simulation model is built to observe the radiation energy transformation in DASCs and results show that better photothermal performance of thin-layer MXene Ti3C2Tx stems from its stronger localized surface plasmon resonance (LSPR) effect. [1] The few-layer MXene Ti3C2Tx was fabricated and utilized as a saturable absorber (SA) to realize passive Q-switched visible bulk laser covering the spectral range of orange (607 nm), red (639 nm), and deep red (721 nm). [2]基于实验结果,建立了一个模拟模型来观察 DASC 中的辐射能量转换,结果表明,薄层 MXene Ti3C2Tx 更好的光热性能源于其更强的局域表面等离子体共振 (LSPR) 效应。 [1] 制造了少层 MXene Ti3C2Tx 并将其用作可饱和吸收体 (SA),以实现覆盖橙色 (607 nm)、红色 (639 nm) 和深红色 (721 nm) 光谱范围的无源 Q 开关可见体激光器. [2]
Carbide Mxene Ti3c2 硬质合金 Mxene Ti3c2
One of the primary factors limiting further research and commercial use of the two-dimensional (2D) titanium carbide MXene Ti3C2, as well as MXenes in general, is the rate at which freshly made samples oxidize and degrade when stored as aqueous suspensions. [1] First, density functional theory simulations were utilized to disclose the geometric structure and electronic properties, Na diffusion path, and storage behaviors of titanium carbonitrides Ti3CNTx, nitrides MXene Ti3N2Tx, and carbides MXene Ti3C2Tx with oxygen terminations, predicting the more excellent performance of Ti3N2O2 than Ti3C2O2. [2]限制二维 (2D) 碳化钛 MXene Ti3C2 以及一般 MXenes 的进一步研究和商业使用的主要因素之一是新鲜制作的样品在以水悬浮液形式储存时氧化和降解的速率。 [1] 首先,利用密度泛函理论模拟揭示了钛碳氮化物 Ti3CNTx、氮化物 MXene Ti3N2Tx 和碳化物 MXene Ti3C2Tx 的几何结构和电子特性、Na 扩散路径和存储行为,预测了 Ti3N2O2 比 Ti3C2O2 更优异的性能. [2]