Ultrasonication assisted fabrication of a tungsten sulfide/tungstite heterostructure for ppb-level ammonia detection at room temperature

Jha Ravindra Kumar; Nanda Aman; Bhat Navakanta

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Ultrasonication assisted fabrication of a tungsten sulfide/tungstite heterostructure for ppb-level ammonia detection at room temperature

机译：超声波辅助在室温下进行PPB水平氨检测的硫化根硫化物/钨酸盐异质结构

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A heterostructure of WS2/WO3 center dot H2O has been prepared by partial oxidation of WS(2)nanosheets by exposing bulk WS(2)micron powder to ultrasonic waves in a bath sonicator. The as-prepared nanomaterial was used as a sensing film in an interdigitated electrode-based gas detecting device. The device was found to be specific towards ammonia gas among a group oxidizing and reducing gases. In particular, a response of as high as 11.36-254.66% was recorded for ammonia concentrations of 50 ppb to 2 ppm with excellent repeatability and reproducibility at room temperature. The response time and recovery time of the device was found to be a few tens of seconds suggesting its practicability. A plausible mechanism based on different active sites present in the receptor film is proposed and a logical reason behind its specificity towards ammonia gas is also inferred based on the Lewis acidic centers on the nano-surfaces. Overall, this proposed nanomaterial has very high potential for practical use as a room temperature ammonia sensor.

机译：通过将散装Ws（2）微米粉末在浴Sonicator中的超声波中，通过部分氧化WS2 / WO3中心点H2O的异质结构。用作基于电极基的气体检测装置中的AS制备的纳米材料用作传感膜。发现该装置在氧化和还原气体中具有特异性朝向氨气。特别地，在室温下具有优异的重复性和再现性，记录高达11.36-254.66％的高达11.36-254.66％的响应。发现设备的响应时间和恢复时间是几十秒的速度，表明其实用性。提出了一种基于受体膜中存在的不同活性位点的合理机制，并基于纳米表面上的路易斯酸性中心推断出其对氨气的特异性背后的逻辑原因。总的来说，这种提出的纳米材料具有很高的实际用途作为室温氨传感器的潜力。

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《RSC Advances》 |2020年第37期|共9页
作者
Jha Ravindra Kumar; Nanda Aman; Bhat Navakanta;
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Indian Inst Sci Ctr Nano Sci &

Engn Bangalore Karnataka India;

Indian Inst Sci Ctr Nano Sci &

Engn Bangalore Karnataka India;

Indian Inst Sci Ctr Nano Sci &

Engn Bangalore Karnataka India;

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正文语种 eng
中图分类化学;
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1. Ultrasonication assisted fabrication of a tungsten sulfide/tungstite heterostructure for ppb-level ammonia detection at room temperature [J] . Jha Ravindra Kumar, Nanda Aman, Bhat Navakanta RSC Advances . 2020,第37期

机译：超声波辅助在室温下进行PPB水平氨检测的硫化根硫化物/钨酸盐异质结构
2. Ultrasonication assisted fabrication of a tungsten sulfide/tungstite heterostructure for ppb-level ammonia detection at room temperature [J] . Ravindra Kumar Jha, Aman Nanda, Navakanta Bhat RSC Advances . 2020,第37期

机译：超声波辅助在室温下进行PPB水平氨检测的硫化根硫化物/钨酸盐异质结构
3. UV assisted ppb-level acetone detection based on hollow ZnO/MoS_2 nanosheets core/shell heterostructures at low temperature [J] . Xiao Chang, Xurong Qiao, Kun Li, Sensors and Actuators . 2020,第Auga期

机译：紫外线辅助PPB级丙酮基于中空ZnO / MOS_2纳米晶片核/壳异质结构在低温下
4. CMOS integrated tungsten oxide nanowire networks for ppb-level hydrogen sulfide sensing [C] . Johanna Krainer, Marco Deluca, Eva Lackner, IEEE Sensors . 2016

机译：用于ppb级硫化氢传感的CMOS集成氧化钨纳米线网络
5. Amorphous tungsten oxide and novel molybdenum doped tungsten oxide based sensors made photochemically at room temperature for sub-PPM NO(x) detection. [D] . Chu, Chu-Hui Winnie. 1998

机译：非晶态氧化钨和新型钼掺杂的氧化钨基传感器在室温下以光化学方式制备，用于亚PPM NO（x）检测。
6. Novel Operation Strategy to Obtain a Fast Gas Sensor for Continuous ppb-Level NO2 Detection at Room Temperature Using ZnO—A Concept Study with Experimental Proof [O] . Ricarda Wagner, Daniela Schönauer-Kamin, Ralf Moos 2019

机译：一种获得快速气体传感器的新型操作策略该传感器可在室温下使用ZnO连续检测ppb级NO2具有实验证明的概念研究
7. Ultrasonically Assisted Synthesis of Tin Sulfide Nanorods at Room Temperature [O] . Jun Pan, Jiangying Li, Shenglin Xiong, 2016

机译：超声波辅助合成室温下硫化锡纳米棒

Ultrasonication assisted fabrication of a tungsten sulfide/tungstite heterostructure for ppb-level ammonia detection at room temperature

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