铈掺杂氧化铜空心纳米结构作为用于挥发性有机化合物的高效且可调谐传感器

Cerium-Doped Copper(II) Oxide Hollow Nanostructures as Efficient and Tunable Sensors for Volatile Organic Compounds.

作者信息

Singh Inderjeet, Dey Sayan, Santra Sumita, Landfester Katharina, Muñoz-Espí Rafael, Chandra Amreesh

机构信息

Department of Physics and Department of Electronics and Electrical Communications, Indian Institute of Technology, Kharagpur 721302, West Bengal, India.

Department of Physical Chemistry of Polymers, Max Planck Institute for Polymer Research, Ackermannweg 10, Mainz 55128, Germany.

出版信息

ACS Omega. 2018 May 9;3(5):5029-5037. doi: 10.1021/acsomega.8b00203. eCollection 2018 May 31.

DOI:10.1021/acsomega.8b00203

PMID:31458716

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC6641873/

Abstract

Tuning sensing capabilities of simple to complex oxides for achieving enhanced sensitivity and selectivity toward the detection of toxic volatile organic compounds (VOCs) is extremely important and remains a challenge. In the present work, we report the synthesis of pristine and Ce-doped CuO hollow nanostructures, which have much higher VOC sensing and response characteristics than their solid analogues. Undoped CuO hollow nanostructures exhibit high response for sensing of acetone as compared to commercial CuO nanoparticles. As a result of doping with cerium, the material starts showing selectivity. CuO hollow structures doped with 5 at. % of Ce return highest response toward methanol sensing, whereas increasing the Ce doping concentration to 10%, the material shows high response for both-acetone and methanol. The observed tunability in selectivity is directly linked to the varying concentration of the oxygen defects on the surface of the nanostructures. The work also shows that the use of hollow nanostructures could be the way forward for obtaining high-performance sensors even by using conventional and simple metal or semiconductor oxides.

摘要

调整简单氧化物到复杂氧化物的传感能力，以实现对有毒挥发性有机化合物（VOCs）检测的更高灵敏度和选择性，这极其重要且仍然是一项挑战。在本工作中，我们报道了原始的和铈掺杂的氧化铜空心纳米结构的合成，它们比其固体类似物具有更高的VOC传感和响应特性。与商业氧化铜纳米颗粒相比，未掺杂的氧化铜空心纳米结构对丙酮传感表现出高响应。由于铈掺杂，该材料开始表现出选择性。掺杂5原子%铈的氧化铜空心结构对甲醇传感返回最高响应，而将铈掺杂浓度增加到10%时，该材料对丙酮和甲醇都表现出高响应。观察到的选择性可调性直接与纳米结构表面氧缺陷浓度的变化有关。这项工作还表明，即使使用传统的简单金属或半导体氧化物，使用空心纳米结构也可能是获得高性能传感器的前进方向。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/d572/6641873/7eb359797871/ao-2018-002034_0009.jpg

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铈掺杂氧化铜空心纳米结构作为用于挥发性有机化合物的高效且可调谐传感器

Cerium-Doped Copper(II) Oxide Hollow Nanostructures as Efficient and Tunable Sensors for Volatile Organic Compounds.

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