Upcycling spent petroleum cracking catalyst: pulsed laser deposition of single-wall carbon nanotubes and silica nanowires

Souza N.; Lasserre F.; Blickley A.; Zeiger M.; Suarez S.; Duarte M.; Presser V.; Muecklich F.

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Upcycling spent petroleum cracking catalyst: pulsed laser deposition of single-wall carbon nanotubes and silica nanowires

机译：卷起的石油裂解催化剂：单壁碳纳米管和二氧化硅纳米线的脉冲激光沉积

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Fluid catalytic cracking (FCC), which currently accounts for half of the worldwide petroleum refining efforts, relies on catalytic, aluminosilicate zeolite particles which slowly deactivate. As of yet, this FCC catalyst residue (FC3R) has no commercial outlet, resulting in abundant amounts of landfill-destined refuse. However, this overlooked waste has the right ingredients for the synthesis of some of today's emerging nanomaterials. High-carbon FC3R, sourced from a Uruguayan refinery, was identified as faujasite particles encased in graphitic carbon shells. We show that pulsed laser ablation of raw FC3R produces simultaneous deposition of single-wall carbon nanotubes and silica nanowires through vapour/ solid-liquid- solid self-assembly in distinct zones of an oven-laser apparatus. This is an extreme revalorisation and provides a new untapped resource for research and applications in C- and Si-based nanomaterials and mesoscopic physics.

机译：液体催化裂化（FCC）目前占全球石油精炼努力的一半依赖于易于失活的催化硅酸盐沸石颗粒。鉴于尚可，该FCC催化剂残基（FC3R）没有商业出口，导致丰富量的垃圾填埋场垃圾。然而，这种被忽视的废物具有合成今天新兴纳米材料的合成的正确成分。来自乌拉圭炼油厂的高碳FC3R，被鉴定为在石墨碳壳中封装的Faujasite颗粒。我们表明，原料FC3R的脉冲激光消融通过在烘箱激光装置的不同区域中通过蒸汽/固体液体固体自组装同时沉积单壁碳纳米管和二氧化硅纳米线。这是一个极端的反向化，并为C-和Si的纳米材料和介术物理学中的研究和应用提供了新的未开发资源。

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《RSC Advances 》 |2016年第76期| 共11页
作者
Souza N.; Lasserre F.; Blickley A.; Zeiger M.; Suarez S.; Duarte M.; Presser V.; Muecklich F.;
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Univ Saarland Dept Mat Sci D-66123 Saarbrucken Germany;

Univ Saarland Dept Mat Sci D-66123 Saarbrucken Germany;

Univ Saarland Dept Mat Sci D-66123 Saarbrucken Germany;

Univ Saarland Dept Mat Sci D-66123 Saarbrucken Germany;

Univ Saarland Dept Mat Sci D-66123 Saarbrucken Germany;

Catholic Univ Uruguay Engn &

Technol Sch Montevideo 11600 Uruguay;

Univ Saarland Dept Mat Sci D-66123 Saarbrucken Germany;

Univ Saarland Dept Mat Sci D-66123 Saarbrucken Germany;

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中图分类化学 ;
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1. Upcycling spent petroleum cracking catalyst: pulsed laser deposition of single-wall carbon nanotubes and silica nanowires [J] . Souza N., Lasserre F., Blickley A., RSC Advances . 2016 ,第76期

机译：卷起的石油裂解催化剂：单壁碳纳米管和二氧化硅纳米线的脉冲激光沉积
2. Upcycling spent petroleum cracking catalyst: pulsed laser deposition of single-wall carbon nanotubes and silica nanowires [J] . N. Souza, F. Lasserre, A. Blickley, RSC Advances . 2016 ,第76期

机译：卷起的石油裂解催化剂：单壁碳纳米管和二氧化硅纳米线的脉冲激光沉积
3. Growth of Carbon Nanotubes on Si Substrate Using Fe Catalyst Produced by Pulsed Laser Deposition [J] . S. Krishnamurthy, T. Donnelly, N. McEvoy, Journal of nanoscience and nanotechnology . 2008 ,第11期

机译：脉冲激光沉积生产的铁催化剂在硅衬底上生长碳纳米管
4. ON THE MECHANISM OF SINGLE-WALL CARBON NANOTUBE NUCLEATION IN THE ARC AND LASER PROCESSES: WHY BIMETALLIC CATALYSTS HAVE HIGH EFFICIENCY? [C] . A. V. Krestinin, M. B. Kislov, A. G. Ryabenko NATO Advanced Study Institute on Nanoengineered Nanofibrous Materials . 2004

机译：在弧和激光过程中单壁碳纳米管成核的机理：为什么双金属催化剂具有高效率？
5. Theoretical studies of electronic properties of magnesium oxide catalysts and metal-intercalated single-wall carbon nanotubes. [D] . Wang, Yan. 2006

机译：氧化镁催化剂和金属插层单壁碳纳米管的电子性质的理论研究。
6. Single-wall carbon nanotubes and graphene oxide-based saturable absorbers for low phase noise mode-locked fiber lasers [O] . Xiaohui Li, Kan Wu, Zhipei Sun, -1

机译：用于低相位噪声锁模光纤激光器的单壁碳纳米管和基于氧化石墨烯的可饱和吸收剂
7. Upcycling spent petroleum cracking catalyst: pulsed laser deposition of single-wall carbon nanotubes and silica nanowires [O] . N. Souza, F. Lasserre, A. Blickley, 2016

机译：卷起的石油裂解催化剂：单壁碳纳米管和二氧化硅纳米线的脉冲激光沉积
8. Pulsed Laser CVD Investigation of Single-Wall Carbon Nanotube Growth Dynamics. [R] . Liu, Z., Styers-Barnett, D. J., Puretzky, A. A., 2013

机译：脉冲激光CVD研究单壁碳纳米管生长动力学。

Upcycling spent petroleum cracking catalyst: pulsed laser deposition of single-wall carbon nanotubes and silica nanowires

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