光热治疗
表面改性
毫秒
材料科学
催化作用
退火(玻璃)
纳米技术
电催化剂
碳纤维
超短脉冲
一氧化碳
化学工程
氢
表面工程
铂金
制氢
氰醇
碳纳米管
光化学
纳米颗粒
过渡金属
表面能
金属
光热效应
纳米晶
作者
Dogyeong Jeon,Hamin Shin,Jun‐Hwe Cha,Honghui Kim,Seohak Park,Jaewan Ahn,Su‐Ho Cho,Chungseong Park,Dong‐Ha Kim,Euichul Shin,Hionsuck Baik,Jihan Kim,Sung‐Yool Choi,Il‐Doo Kim
出处
期刊:ACS Nano
[American Chemical Society]
日期:2025-09-18
卷期号:19 (38): 34235-34247
被引量:4
标识
DOI:10.1021/acsnano.5c11229
摘要
Carbon nanoonions (CNOs), known for their nanometer-scale surface curvature and potential for versatile functionalization, are widely used in energy and environmental applications. However, they face challenges from energy-intensive synthesis and time-consuming post-treatments, resulting in low yields and poor-quality sp 2 shells, which limit their commercial viability. In this study, we introduce a direct-contact annealing (DCA) platform reaching up to 3030 K within 1.4 ms (2.2 × 10 6 K s –1 ), utilizing black-colored photothermal agents for millisecond-scale synthesis of CNO under ambient air. Moreover, we demonstrate simultaneous in situ single-atom catalyst (SACs) functionalization with eight different metal elements on the outer surface of CNOs. A case study on Pt SAC-functionalized CNOs demonstrates outstanding hydrogen evolution reaction performance. This DCA platform provides a promising alternative to conventional harsh conditions for SAC/CNO electrocatalyst synthesis, enabling ultrafast and facile production of surface-functionalized catalysts with exceptional energy efficiency and scalability advantages for advanced energy applications.
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