石墨烯量子点修饰柔性硅纳米线阵列用于NO2检测

doi:10.12034/j.issn.1009-606X.218101

过程工程学报 ›› 2018, Vol. 18 ›› Issue (5): 1061-1067.DOI: 10.12034/j.issn.1009-606X.218101

石墨烯量子点修饰柔性硅纳米线阵列用于NO₂检测

潘乾，尚文喻，朱蓉鑫，刘红缨*

中国矿业大学(北京)化学与环境工程学院，北京 100083

收稿日期:2018-01-03 修回日期:2018-02-08 出版日期:2018-10-22 发布日期:2018-10-12
通讯作者: 刘红缨 lhying@cumtb.edu.cn
基金资助:
国家重点基础研究发展规划(973)基金资助项目

Graphene quantum dots modified flexible silicon nanowires array for NO₂ detection

Qian PAN, Wenyu SHANG, Rongxin ZHU, Hongying LIU*

School of Chemical and Environmental Engineering, China University of Mining & Technology, Beijing 100083, China

Received:2018-01-03 Revised:2018-02-08 Online:2018-10-22 Published:2018-10-12

摘要/Abstract

摘要： 将化学刻蚀法与金属辅助刻蚀法相结合，制备了形貌统一、分布均匀的高质量柔性硅纳米线阵列结构，用石墨烯量子点对其表面进行修饰，得到了表面稳定且具有强载流子传输能力的柔性石墨烯量子点/硅纳米线核?壳结构阵列，用其制备气敏设备检测NO2. 结果表明，基于该阵列的电阻式气敏设备对NO2的检测灵敏性及可重复性极高，检测浓度极限达20 mg/m3；不同弯曲度的柔性石墨烯量子点/硅纳米线阵列的气敏特性未大幅度降低，弯曲90o时响应电流峰值为未弯曲时的70%.

关键词: 柔性硅纳米线阵列, 石墨烯量子点, NO2检测

Abstract: The detection of toxic and harmful gas NO2 is an important measure to reduce environmental pollution. In the field of gas detection, silicon nanowires array is an excellent material because of its high specific surface area, high surface activity, surface functionalized modification and admirable biocompatibility. Therefore, silicon nanowires array has attracted a wide range of attention in the field of gas detection. Graphene quantum dots exhibit excellent optical, electrical, quantum confinement effects and other unique properties. It is widely used in photovoltaic devices, electronic devices, biosensors and other fields. The nano size of graphene quantum dots makes it possess great biocompatibility and chemical stability, furthermore, its aqueous solution can functionalized modify different types and sizes substances. The chemical etching method was combined with the metal assisted etching method, based on P monocrystalline silicon, to prepare high-quality flexible silicon nanowires array with uniform morphology. A flexible graphene quantum dots/silicon nanowires core?shell structure array with stable surface and strong carrier transport ability was obtained through the further modification with graphene quantum dots on its surface, the array was used to detecting NO2. The results showed that, by the modification of graphene quantum dots, the surface oxidation of silicon nanowires array can be avoided and the surface stability of silicon nanowires array is improved. What’s more, owing to the strong ability of graphene quantum dots to attract and store the electrons, the carrier migration rate of the device is further improved. When the device is used for gas detection, resistive gas sensor based on this array had extremely high sensitivity and repeatability of NO2, and the detection limit of NO2 reached to 20 mg/m3. The gas sensing properties of the flexible graphene quantum dots/silicon nanowires array could be maintained with different bending angles. The response current peak when the bending angle was 90o can still hold as 70% of the value before bending.

Key words: flexible silicon nanowires array, graphene quantum dots, NO2 detection

潘乾尚文喻朱蓉鑫刘红缨. 石墨烯量子点修饰柔性硅纳米线阵列用于NO₂检测[J]. 过程工程学报, 2018, 18(5): 1061-1067.

Qian PAN Wenyu SHANG Rongxin ZHU Hongying LIU. Graphene quantum dots modified flexible silicon nanowires array for NO₂ detection[J]. Chin. J. Process Eng., 2018, 18(5): 1061-1067.

参考文献

[1]Claramunt S, Monereo O, Boix M, et al.Flexible Gas Sensor Array with an Embedded Heater Based in Metal Decorated Carbon Nanofibres[J].Sens. Actuators B: chem., 2013, 187(1):401-406 [2]Rashid T R, Phan D T, Chung G S.Effect of Ga-modified Layer on Flexible Hydrogen Sensor using ZnO Nanorods Decorated by Pd Catalysts[J].Sens. Actuators B: chem., 2014, 193(3):869-876 [3] Uddin A S M I, Chung G S.A Novel Flexible C2H2 Gas Sensor Based on Ag-ZnO Nanorods on PI/PTFE Substrate [J]. Spie Photonics West, 2016, 9749.[J].Proc. of SPIE, 1016, 9749:- [4]Matindoust S, Farzi A, Nejad M B, et al.Ammonia Gas Sensor Based on Flexible Polyaniline Films for Rapid Detection of Spoilage in Protein-rich Foods[J].J. Mater. Sci: Mater. Electron, 2017, 28(11):7760-7768 [5]Vallejos S, Gràciaa I, Figuerasa E, et al.Microfabrication of Flexible Gas Sensing Devices Based on Nanostructured Semiconducting Metal Oxides[J].Nano Lett., 2014, 14(2):933-938 [6]Qin Y X, Wang Y Y, Liu Y.Vertically Aligned Silicon Nanowires with Rough Surface and Its NO2 Sensing Properties[J].J. Mater. Sci: Mater. Electron, 2016, 27(11):11319-11324 [7]Gao C, Xu Z C, Deng S R, et al.Silicon Nanowires by Combined Nanoimprint and Angle Deposition for Gas Sensing Applications[J].Microelectron. Eng., 2011, 88(8):2100-2104 [8]刘莉, 曹阳, 贺军辉, 等.硅纳米线阵列的制备及其光电应用[J].化学进展, 2013, 25(2-3):248-259 [9]Liu L, Cao Y, He J H, et al.Preparation and Optoelectronic Applications of Silicon Nanowire Arrays[J].Progress in Chemistry, 2013, 25(0203):248-259 [10] Li S Y, Ma W H, Chen X H, et al.Structure and Antireflection Properties of SiNWs Arrays form Mc-Siwafer through Ag-catalyzed Chemical Etching [J]. Appl. Surf. Sci., 2016, 369: 232-240.[J]., 2016, 369:232-240 [11]吕文辉, 张帅.金属援助硅化学刻蚀法可控制备硅纳米线阵列[J].半导体光电, 2011, 32(3):363-365 [12]Lv W H, Zhang S.Controlled Synthesis of Si Nanowire Arrays through Metal Assisted Silicon Chemical Etching[J].Semiconductor Optoelectronics, 2011, 32(3):363-365 [13]Wang S, Weil B D, Li Y B, et al.Large-Area Free-Standing Ultrathin Single-Crystal Silicon as Processable Materials[J].Nano Lett., 2013, 13(9):4393-4398 [14]Li S X, Pei Z B, Zhou F, et al.Flexible SiPEDOT: PSS Hybrid Solar Cells[J].Nano Research, 2015, 8(10):3141-3149 [15] Asmah M T, Sidek O, Hutagalung S D.Junctionless Silicon-based Device for CO2 and N2O Gas Detection at Room Temperature [J]. Procedia Manufacturing, 2015, 2: 385-391.[J]., 2015, 2:385-391 [16]Noh J S, Kim H, Kim B S, et al.High-performance Vertical Hydrogen Sensors Using Pd-coated Rough Si Nanowires[J].J. Mater. Chem., 2011, 21(40):15935-15939 [17]Li T Y, Duan C Y, Zhu Y X, et al.Graphene Quantum Dots Modified Silicon Nanowire Array for Ultrasensitive Detection in the Gas Phase[J].J. Phys. D: Appl. Phys., 2017, 50(11):114002- [18]Wang L F, Li Y, Li S, et al.Synthesis,Characterization and Photocatalytic Activity of Graphene Quantum Dots-Ag Solar Driven Photocatalyst[J].J. Mater. Sci: Mater. Electron, 2017, 28(23):17570-17577 [19]Fan F, Zhang B, Cao Y M, et al.Conjugated Polymer Covalently Modified Graphene Oxide Quantum Dots for Ternary Electronic Memory Devices[J].Nanoscale, 2017, 9(30):10610-10618 [20] Joshi P N, Agawane S, Athalye M C, et al.Multifunctional Inulin Tethered Silver-graphene Quantum Dots Nanotheranostic Module for Pancreatic Cancer Therapy [J]. Mater. Sci. Eng. C, 2017, 78: 1203-1211.[J]., 2017, 78:1203-1211 [21]Hummers S, Offeman R.Preparation of graphitic oxide[J].J Am Chem Soc, 1958, 80(6):1339-1339

石墨烯量子点修饰柔性硅纳米线阵列用于NO₂检测

Graphene quantum dots modified flexible silicon nanowires array for NO₂ detection

PDF

可视化

摘要/Abstract

引用本文

使用本文

参考文献

相关文章 0

编辑推荐

Metrics