Metal-Organic Framework Templated Synthesis of Ultrasmall Catalyst Loaded ZnO/ZnCo2O4 Hollow Spheres for Enhanced Gas Sensing Properties

Won-Tae Koo; Seon-Jin Choi; Ji-Soo Jang; Il-Doo Kim

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Metal-Organic Framework Templated Synthesis of Ultrasmall Catalyst Loaded ZnO/ZnCo2O4 Hollow Spheres for Enhanced Gas Sensing Properties

机译：超超催化剂的金属 - 有机框架模板合成加载的ZnO / ZnCo2O4中空球体，用于增强气体传感性能

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To achieve the rational design of nanostructures for superior gas sensors, the ultrasmall nanoparticles (NPs) loaded on ternary metal oxide (TMO) hollow spheres (HS) were synthesized by using the polystyrene (PS) sphere template and bimetallic metal-organic framework (BM-MOFs) mold. The zinc and cobalt based zeolite imidazole frameworks (BM-ZIFs) encapsulating ultrasmall Pd NPs (2–3?nm) were assembled on PS spheres at room temperature. After calcination at 450?°C, these nanoscale Pd particles were effectively infiltrated on the surface of ZnO/ZnCo2O4 HSs. In addition, the heterojunctions of Pd-ZnO, Pd-ZnCo2O4, and ZnO-ZnCo2O4 were formed on each phase. The synthesized Pd-ZnO/ZnCo2O4 HSs exhibited extremely high selectivity toward acetone gas with notable sensitivity (S?=?69% to 5 ppm at 250?°C). The results demonstrate that MOF driven ultrasmall catalyst loaded TMO HSs were highly effective platform for high performance chemical gas sensors.

机译：为了实现优质气体传感器的纳米结构的合理设计，通过使用聚苯乙烯（PS）球模板和双金属 - 有机框架（BM -mofs）模具。锌和钴基沸石咪唑框架（BM-ZIFS）在室温下在PS球体上组装超大PD NPS（2-3·NM）。在450℃下煅烧后，将这些纳米级Pd颗粒有效渗透在ZnO / ZnCo2O4 HSS的表面上。另外，在每相上形成Pd-ZnO，Pd-ZnCo 2 O 4和ZnO-ZnCo 2 O 4的杂结。合成的Pd-ZnO / ZnCo2O4 HSS对具有显着灵敏度的丙酮气体具有极高的选择性（Sα=Δ=Δ= 69％至5ppm）。结果表明，MOF驱动的超自动催化剂负载的TMO HSS是高性能化学气体传感器的高效平台。

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《Scientific reports.》 |2017年第1期|共10页
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Won-Tae Koo; Seon-Jin Choi; Ji-Soo Jang; Il-Doo Kim;
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6. Metal-Organic Framework Templated Synthesis of Ultrasmall Catalyst Loaded ZnO/ZnCo2O4 Hollow Spheres for Enhanced Gas Sensing Properties [O] . Won-Tae Koo, Seon-Jin Choi, Ji-Soo Jang, -1

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Metal-Organic Framework Templated Synthesis of Ultrasmall Catalyst Loaded ZnO/ZnCo2O4 Hollow Spheres for Enhanced Gas Sensing Properties

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