A visible-light activated gas sensor based on perylenediimide-sensitized SnO2 for NO2 detection at room temperature
暂无分享,去创建一个
X. Tian | Xi Yang | Fang Yang | Tianjiao Qi
[1] Wojciech Pisula,et al. Discotic liquid crystals: a new generation of organic semiconductors. , 2007, Chemical Society reviews.
[2] Seth R. Marder,et al. n‐Type Organic Semiconductors in Organic Electronics , 2010, Advanced materials.
[3] A. Teleki,et al. Semiconductor gas sensors: dry synthesis and application. , 2010, Angewandte Chemie.
[4] C. Zannoni,et al. Assemblies of perylene diimide derivatives with melamine into luminescent hydrogels. , 2011, Chemical communications.
[5] Nicola Donato,et al. Photoreduction of mesoporous In2O3: mechanistic model and utility in gas sensing. , 2012, Chemistry.
[6] Daqiang Zhang,et al. A Survey on Gas Sensing Technology , 2012, Sensors.
[7] C. Malagù,et al. WO3 sensing properties enhanced by UV illumination: An evidence of surface effect , 2012 .
[8] Zhen Jin,et al. Metal Oxide Nanostructures and Their Gas Sensing Properties: A Review , 2012, Sensors.
[9] Lina Han,et al. Study on formaldehyde gas-sensing of In2O3-sensitized ZnO nanoflowers under visible light irradiation at room temperature , 2012 .
[10] Chen Li,et al. Tuning the photoresponse in organic field-effect transistors. , 2012, Journal of the American Chemical Society.
[11] Xuxu Wang,et al. Gas sensing property of ZnO under visible light irradiation at room temperature , 2013 .
[12] Simon J. Henley,et al. Role of the Exposed Polar Facets in the Performance of Thermally and UV Activated ZnO Nanostructured Gas Sensors , 2013, The journal of physical chemistry. C, Nanomaterials and interfaces.
[13] C. Zhang,et al. Room temperature responses of visible-light illuminated WO3 sensors to NO2 in sub-ppm range , 2013 .
[14] Thorsten Wagner,et al. Mesoporous materials as gas sensors. , 2013, Chemical Society reviews.
[15] Xiaogan Li,et al. Room temperature impedance spectroscopy-based sensing of formaldehyde with porous TiO2 under UV illumination , 2013 .
[16] M. Rumyantseva,et al. Visible light activated room temperature gas sensors based on nanocrystalline ZnO sensitized with CdSe quantum dots , 2014 .
[17] Visible light enhanced gas sensing of CdSe nanoribbons of ethanol , 2014 .
[18] J. H. Lee,et al. Highly sensitive and selective gas sensors using p-type oxide semiconductors: Overview , 2014 .
[19] Xinyu Xue,et al. Realizing room-temperature self-powered ethanol sensing of ZnO nanowire arrays by combining their piezoelectric, photoelectric and gas sensing characteristics , 2015 .
[20] Xu Li,et al. Carbon nanofibers by pyrolysis of self-assembled perylene diimide derivative gels as supercapacitor electrode materials , 2015 .
[21] C. Zhang,et al. Room temperature nitrogen dioxide sensors based on N719-dye sensitized amorphous zinc oxide sensors performed under visible-light illumination , 2015 .
[22] S. Bhansali,et al. Organic-inorganic hybrid nanocomposite-based gas sensors for environmental monitoring. , 2015, Chemical reviews.
[23] P. Wei,et al. Ultraviolet-enhanced room-temperature gas sensing by using floccule-like zinc oxide nanostructures , 2015 .
[24] Fan Liao,et al. Visible-light-enhanced gas sensing of CdSxSe1−x nanoribbons for acetic acid at room temperature , 2015 .
[25] Y. Rim,et al. Recent Progress in Materials and Devices toward Printable and Flexible Sensors , 2016, Advanced materials.
[26] Gang Xu,et al. MOF Thin Film‐Coated Metal Oxide Nanowire Array: Significantly Improved Chemiresistor Sensor Performance , 2016, Advanced materials.
[27] U. Anselmi-Tamburini,et al. The influence of thermal and visible light activation modes on the NO2 response of WO3 nanofibers prepared by electrospinning , 2016 .
[28] Yanhong Lin,et al. UV-light illumination room temperature HCHO gas-sensing mechanism of ZnO with different nanostructures , 2016 .
[29] C. Malagù,et al. Chemoresistive properties of photo-activated thin and thick ZnO films , 2016 .
[30] M. Rumyantseva,et al. UV effect on NO2 sensing properties of nanocrystalline In2O3 , 2016 .
[31] Jing Wang,et al. UV activated hollow ZnO microspheres for selective ethanol sensors at low temperatures , 2016 .