Mathis Tyler S, Maleski Kathleen, Goad Adam, Sarycheva Asia, Anayee Mark, Foucher Alexandre C, Hantanasirisakul Kanit, Shuck Christopher E, Stach Eric A, Gogotsi Yury
A.J. Drexel Nanomaterials Institute and Department of Materials Science and Engineering, Drexel University, Philadelphia, Pennsylvania 19143, United States.
Department of Materials Science and Engineering, University of Pennsylvania, Philadelphia, Pennsylvania 19143, United States.
ACS Nano. 2021 Apr 27;15(4):6420-6429. doi: 10.1021/acsnano.0c08357. Epub 2021 Apr 13.
One of the primary factors limiting further research and commercial use of the two-dimensional (2D) titanium carbide MXene TiC, as well as MXenes in general, is the rate at which freshly made samples oxidize and degrade when stored as aqueous suspensions. Here, we show that including excess aluminum during synthesis of the TiAlC MAX phase precursor leads to TiAlC grains with improved crystallinity and carbon stoichiometry (termed Al-TiAlC). MXene nanosheets (Al-TiC) produced from this precursor are of higher quality, as evidenced by their increased resistance to oxidation and an increase in their electronic conductivity up to 20 000 S/cm. Aqueous suspensions of stoichiometric single- to few-layer Al-TiC flakes produced from the modified Al-TiAlC have a shelf life of over ten months, compared to 1 to 2 weeks for previously published TiC, even when stored in ambient conditions. Freestanding films made from Al-TiC suspensions stored for ten months show minimal decreases in electrical conductivity and negligible oxidation. Furthermore, oxidation of the improved Al-TiC in air initiates at temperatures that are 100-150 °C higher than that of conventional TiC. The observed improvements in both the shelf life and properties of Al-TiC will facilitate the widespread use of this material.
限制二维(2D)碳化钛MXene TiC以及一般MXenes进一步研究和商业应用的主要因素之一,是新制备的样品在作为水悬浮液储存时氧化和降解的速率。在此,我们表明,在TiAlC MAX相前驱体的合成过程中加入过量铝会导致TiAlC晶粒的结晶度和碳化学计量比得到改善(称为Al-TiAlC)。由该前驱体制备的MXene纳米片(Al-TiC)质量更高,这体现在它们抗氧化性增强以及电子电导率提高至20000 S/cm。由改性Al-TiAlC制备的化学计量比的单层至少数层Al-TiC薄片的水悬浮液保质期超过十个月,而之前报道的TiC水悬浮液保质期为1至2周,即使在环境条件下储存也是如此。由储存十个月的Al-TiC悬浮液制成的独立薄膜的电导率下降最小,氧化可忽略不计。此外,改进后的Al-TiC在空气中的氧化起始温度比传统TiC高100 - 150°C。观察到的Al-TiC保质期和性能的改善将促进这种材料的广泛应用。
