Department of Radiology, The First Affiliated Hospital of USTC, Division of Life Sciences and Medicine, University of Science and Technology of China, Hefei, Anhui, 230001, P. R. China.
School of Chemistry and Materials Science, University of Science and Technology of China, Hefei, Anhui, 230026, P. R. China.
Small. 2022 Jun;18(22):e2200646. doi: 10.1002/smll.202200646. Epub 2022 May 5.
Photothermal therapy (PTT) as a noninvasive hyperthermia exhibits high potential for anti-cancer treatments. The explosion of efficient photothermal agents (PTAs) keeps developing rapidly. MXene stands out due to its intriguing structures, fantastic photodynamic properties, and good biocompatibility. However, the potential of MXenes has not been sufficiently explored in PTT. Its versatile chemical compositions of MXenes provide vast opportunities to discover new candidates. Considering that the metallic feature is mainly attributed to the metal element, anionic modulation may open a distinct avenue to propel efficient PTAs with metallic nature, which is expected for high light-harvesting over near-infrared (NIR)-I and NIR-II. As a paradigm, metal carbonitride is chosen to visualize the influences of anionic modulation. Taking advantage of electron injection from nitrogen, the distinct carbonitride Ti C N F O (OH) exhibits a strong NIR absorption (36.6 L g cm at 808 nm, 43.5 L g cm at 1064 nm), resulting in efficient photonic hyperthermia against tumors in vitro and in vivo. Looking through a large family of MXenes, this proof-of-principle demonstration offers a deep understanding between atomic composition and physicochemical properties, which further solidifies MXenes with all the potential for biomedical applications.
光热疗法(PTT)作为一种非侵入性的热疗,在癌症治疗方面具有很高的潜力。高效光热剂(PTAs)的爆炸式发展正在迅速推进。MXene 因其引人入胜的结构、出色的光动力性能和良好的生物相容性而脱颖而出。然而,MXenes 在 PTT 中的潜力尚未得到充分探索。其多样的 MXene 化学成分提供了广阔的机会来发现新的候选物。考虑到金属特性主要归因于金属元素,阴离子调制可能开辟一条独特的途径,推动具有金属性质的高效 PTA,这对于近红外(NIR)-I 和 NIR-II 区域的高光捕获是期望的。作为一个范例,选择金属碳氮化物来可视化阴离子调制的影响。利用氮的电子注入,独特的碳氮化物 Ti C N F O(OH)表现出强烈的近红外吸收(808nm 时为 36.6 L g cm,1064nm 时为 43.5 L g cm),从而在体外和体内对肿瘤进行有效的光热治疗。纵观一大类 MXenes,这一原理验证性演示提供了原子组成和物理化学性质之间的深刻理解,进一步巩固了 MXenes 在生物医学应用方面的全部潜力。
