1. (106)A stable atmospheric-pressure plasma for extreme-temperature synthesis
用于极端温度合成的稳定常压等离子体
2. (122)Rapid, Universal Surface Engineering of Carbon Materials via Microwave-Induced Carbothermal Shock
微波诱导碳热冲击快速通用碳材料表面工程
3. (131)Direct observation of the formation and stabilization of metallic nanoparticles on carbon supports
碳载体上金属纳米颗粒形成与稳定的直接观察
4. (192)Carbothermal shock enabled facile and fast growth of carbon nanotubes in a second
碳热冲击法实现碳纳米管的简便快速生长
5. (257)Efficient recovery of carbon fibers from carbon fiber-reinforced polymers using direct discharge electrical pulses
利用直接放电电脉冲从碳纤维增强聚合物中高效回收碳纤维
6. (277)Significant enhancement on creep resistance of the near stoichiometric SiC fibers by ultrafast Joule heating
通过超快焦耳加热显著增强近化学计量比SiC纤维的抗蠕变性能
7. (321)Ultrafast and Controllable Construction of Sb Particle-Loaded Bead-Like Carbon Nanofibers for Long Cycle-Life Sodium-Ion Storage
超快可控构建锑颗粒负载珠状碳纳米纤维用于长循环寿命钠离子存储
8. (351)Ethylene-induced welding of single-walled carbon nanotube films to enhance mechanical and optoelectronic properties
乙烯诱导单壁碳纳米管薄膜焊接以增强机械和光电性能
9. (393)Extreme Environmental Thermal Shock Induced Dislocation-Rich Pt Nanoparticles Boosting Hydrogen Evolution Reaction
极端环境热冲击诱导富含位错的铂纳米颗粒促进析氢反应
10. (6)Tunable Hybridized Morphologies Obtained through Flash Joule Heating of Carbon Nanotubes
通过碳纳米管闪速焦耳加热获得可调控的杂化形态
11. (84)Carbon Welding by Ultrafast Joule Heating
超快焦耳加热实现碳焊接