Lu Siqi, Zhao Zixiang, Han Jinsen, Wang Jun, Zhang Yongxin, Du Yu, Guo Fangyu, Wang Zhichao, Wang Shenghui, Tang Sichen, Hu Kuojuei, Wan Jianguo, Dai Jiayu, Song Fengqi
National Laboratory of Solid State Microstructures, Collaborative Innovation Center of Advanced Microstructures, and School of Physics, Nanjing University, Nanjing, 210093, P. R. China.
Institute of Atom Manufacturing, Nanjing University, Suzhou, 215163, P. R. China.
Adv Sci (Weinh). 2025 Jul;12(26):e2503347. doi: 10.1002/advs.202503347. Epub 2025 Apr 3.
Size-selected gas-phase aggregated metal clusters have long been considered as embryos of materials. However, a significant proportion of these clusters are susceptive to damage when exiting vacuum. Consequently, effective protection is highly desirable. Here a cluster packaging and protection strategy is presented based on controllable cluster beam implantation into polymethyl methacrylate (PMMA). In this strategy, the size selection of gas-phase clusters and the synergistic heating of PMMA during implantation are combined, thereby achieving nondestructive packaging of atomically precise cluster under soft-landing conditions. The packaged clusters exhibit robust and universal protection. Robustness is reflected in the unaltered oxidation resistance of Mo clusters after exposure to air for over 30 days, as well as the effective agglomeration resistance at temperatures up to 100 °C or in liquid. Universality is demonstrated by the successful protection of a wide range of size-selected clusters, including Mo clusters ranging from Mo to Mo, and Ta, Cu, W, (Re-Mo) clusters. This protection is attributed to both a stable, albeit weak PMMA-Mo bonding, forming Mo─O─C─C species that stabilize the clusters, and the direct implantation of gas-phase cluster into solid-phase PMMA. This helps pave the way for further investigation and applications of gas-phase metal clusters.
长期以来,尺寸选择的气相聚集金属簇一直被视为材料的胚胎。然而,这些簇中的很大一部分在离开真空时容易受到损伤。因此,非常需要有效的保护。本文提出了一种基于可控簇束注入聚甲基丙烯酸甲酯(PMMA)的簇包装和保护策略。在该策略中,结合了气相簇的尺寸选择和注入过程中PMMA的协同加热,从而在软着陆条件下实现了原子精确簇的无损包装。包装后的簇表现出强大而通用的保护性能。强大性体现在Mo簇在暴露于空气中超过30天后抗氧化性不变,以及在高达100°C的温度下或在液体中有效的抗团聚性。通用性通过成功保护各种尺寸选择的簇得到证明,包括从Mo到Mo的Mo簇以及Ta、Cu、W、(Re-Mo)簇。这种保护归因于稳定的(尽管较弱)PMMA-Mo键合,形成稳定簇的Mo─O─C─C物种,以及气相簇直接注入固相PMMA。这有助于为气相金属簇的进一步研究和应用铺平道路。
