Selective molecular sieving by tailoring the etch hole dimensions of rGO in rGO-ZnO nanotubes based hybrid structure

2018 International Symposium on Devices, Circuits and Systems (ISDCS) Pub Date : 2018-03-29 DOI:10.1109/ISDCS.2018.8379679

I. Maity, D. Acharyya, P. Bhattacharyya

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Abstract

The present paper concerns the selectivity improvement of the gas sensor devices by incorporating the molecular sieving effect through tailoring the dimensions and numbers of etch holes in the reduced graphene oxide (rGO) layer of rGO-ZnO nanotubes based hybrid device structure. The etch holes on rGO layer act as an effective molecular sieve, where target vapor having larger molecular size can't penetrate through the etch holes. Thus, the numbers and dimensions of etch holes were tailored in rGO-ZnO NTs based hybrid structure by tuning the reduction temperature of rGO. Two types of binary hybrid devices viz. sample 1 (treated at 200°C temperature) and sample 2 (treated at 400°C temperature) were investigated. Consequently, for proof of concept, two different alcohols vapors (i.e. methanol and ethanol) having different molecular size, were used as a test species. The experimental results confirms that, for smaller etch hole dimensions, the nanoscale perforation of rGO excludes larger molecules but allows smaller molecules to pass through it and thus can act as a molecular sieve.

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在rGO- zno纳米管杂化结构中，通过调整rGO的蚀刻孔尺寸进行选择性分子筛分

本文研究了通过调整还原氧化石墨烯(rGO)层中蚀刻孔的尺寸和数量，结合分子筛分效应来提高气体传感器器件的选择性。氧化石墨烯层上的蚀刻孔起到了有效的分子筛作用，较大分子尺寸的目标蒸汽无法通过蚀刻孔穿透。因此，通过调整还原氧化石墨烯的还原温度，可以定制氧化石墨烯-氧化锌纳米管杂化结构中蚀刻孔的数量和尺寸。研究了两种二元杂化器件，即样品1(在200℃温度下处理)和样品2(在400℃温度下处理)。因此，为了证明概念，使用具有不同分子大小的两种不同的醇蒸气(即甲醇和乙醇)作为测试物种。实验结果证实，对于较小的蚀刻孔尺寸，还原氧化石墨烯的纳米级穿孔排除了较大的分子，但允许较小的分子通过，因此可以起到分子筛的作用。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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2018 International Symposium on Devices, Circuits and Systems (ISDCS)

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