A Combined Experimental and Computational Study of Gas Sensing by Cu3
SnS4
 Nanoparticulate Film: High Selectivity, Stability, and Reversibility for Room Temperature H2
S Sensing

AbstractAmmonia detection possesses great potential in atmosphere environmental protection, agriculture, industry, and rapid medical diagnosis. However, it still remains a great challenge to balance the sensitivity, selectivity, working temperature, and response/recovery speed. In this work, Berlin green (BG) framework is demonstrated as a highly promising sensing material for ammonia detection by both density functional theory simulation and experimental gas sensing investigation. Vacancy in BG framework offers abundant active sites for ammonia absorption, and the absorbed ammonia transfers sufficient electron to BG, arousing remarkable enhancement of resistance. Pristine BG framework shows remarkable response to ammonia at 50–110 °C with the highest response at 80 °C, which is jointly influenced by ammonia's absorption onto BG surface and insertion into BG lattice. The sensing performance of BG can hardly be achieved at room temperature due to its high resistance. Introduction of conductive Ti3CN MXene overcomes the high resistance of pure BG framework, and the simply prepared BG/Ti3CN mixture shows high selectivity to ammonia at room temperature with satisfying response/recovery speed.

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Selective and self-validating breath-level detection of hydrogen sulfide in humid air by gold nanoparticle-functionalized nanotube arrays

Nano Research ◽

10.1007/s12274-021-3771-7 ◽

2021 ◽

Author(s):

Luis Antonio Panes-Ruiz ◽

Leif Riemenschneider ◽

Mohamad Moner Al Chawa ◽

Markus Löffler ◽

Bernd Rellinghaus ◽

...

Keyword(s):

Hydrogen Sulfide ◽

Room Temperature ◽

Sensor Array ◽

High Selectivity ◽

Electrochemical Sensors ◽

Gas Sensing ◽

Limit Of Detection ◽

Electrical Characteristics ◽

Sensor Fabrication ◽

Walled Carbon Nanotubes

AbstractWe demonstrate the selective detection of hydrogen sulfide at breath concentration levels under humid airflow, using a self-validating 64-channel sensor array based on semiconducting single-walled carbon nanotubes (sc-SWCNTs). The reproducible sensor fabrication process is based on a multiplexed and controlled dielectrophoretic deposition of sc-SWCNTs. The sensing area is functionalized with gold nanoparticles to address the detection at room temperature by exploiting the affinity between gold and sulfur atoms of the gas. Sensing devices functionalized with an optimized distribution of nanoparticles show a sensitivity of 0.122%/part per billion (ppb) and a calculated limit of detection (LOD) of 3 ppb. Beyond the self-validation, our sensors show increased stability and higher response levels compared to some commercially available electrochemical sensors. The cross-sensitivity to breath gases NH3 and NO is addressed demonstrating the high selectivity to H2S. Finally, mathematical models of sensors’ electrical characteristics and sensing responses are developed to enhance the differentiation capabilities of the platform to be used in breath analysis applications.

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Selective oxidation of aniline into azoxybenzene catalyzed by Nb-peroxo@iron oxides at room temperature

New Journal of Chemistry ◽

10.1039/d0nj00520g ◽

2020 ◽

Vol 44 (21) ◽

pp. 8710-8717

Author(s):

André L. D. Lima ◽

Humberto V. Fajardo ◽

André E. Nogueira ◽

Márcio C. Pereira ◽

Luiz C. A. Oliveira ◽

...

Keyword(s):

Iron Oxides ◽

Selective Oxidation ◽

Room Temperature ◽

High Selectivity

Nb-peroxo@iron oxides show high selectivity and activity in aniline conversion to azoxybenzene.

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Preparation and Gas Sensing Properties of PANI/SnO2 Hybrid Material

Polymers ◽

10.3390/polym13091360 ◽

2021 ◽

Vol 13 (9) ◽

pp. 1360

Author(s):

Qiaohua Feng ◽

Huanhuan Zhang ◽

Yunbo Shi ◽

Xiaoyu Yu ◽

Guangdong Lan

Keyword(s):

Hybrid Material ◽

Room Temperature ◽

Tin Dioxide ◽

Gas Adsorption ◽

Gas Sensing ◽

Oxidative Polymerization ◽

Environmental Pollutants ◽

Decomposition Temperature ◽

Benzene Vapor ◽

Thermo Gravimetric Analyzer

A sensor operating at room temperature has low power consumption and is beneficial for the detection of environmental pollutants such as ammonia and benzene vapor. In this study, polyaniline (PANI) is made from aniline under acidic conditions by chemical oxidative polymerization and doped with tin dioxide (SnO2) at a specific percentage. The PANI/SnO2 hybrid material obtained is then ground at room temperature. The results of scanning electron microscopy show that the prepared powder comprises nanoscale particles and has good dispersibility, which is conducive to gas adsorption. The thermal decomposition temperature of the powder and its stability are measured using a differential thermo gravimetric analyzer. At 20 °C, the ammonia gas and benzene vapor gas sensing of the PANI/SnO2 hybrid material was tested at concentrations of between 1 and 7 ppm of ammonia and between 0.4 and 90 ppm of benzene vapor. The tests show that the response sensitivities to ammonia and benzene vapor are essentially linear. The sensing mechanisms of the PANI/SnO2 hybrid material to ammonia and benzene vapors were analyzed. The results demonstrate that doped SnO2 significantly affects the sensitivity, response time, and recovery time of the PANI material.

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Synergistic effects of SnO2 and Au nanoparticles decorated on WS2 nanosheets for flexible, room-temperature CO gas sensing

Sensors and Actuators B Chemical ◽

10.1016/j.snb.2021.129493 ◽

2021 ◽

Vol 332 ◽

pp. 129493

Author(s):

Jae-Hun Kim ◽

Jin-Young Kim ◽

Ali Mirzaei ◽

Hyoun Woo Kim ◽

Sang Sub Kim

Keyword(s):

Room Temperature ◽

Au Nanoparticles ◽

Gas Sensing ◽

Synergistic Effects ◽

Ws2 Nanosheets ◽

Co Gas

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SnS2/MXene derived TiO2 hybrid for ultra-fast room temperature NO2 gas sensing

Journal of Materials Chemistry C ◽

10.1039/d1tc00197c ◽

2021 ◽

Author(s):

Tianding CHEN ◽

Wenhao YAN ◽

Ying WANG ◽

Jinli Li ◽

Haibo Hu ◽

...

Keyword(s):

Nitrogen Dioxide ◽

Human Health ◽

Room Temperature ◽

Gas Sensing ◽

Air Pollutant

Nitrogen dioxide (NO2) is a prominent air pollutant that is harmful to both the environment and human health. Conventional NO2 sensors that are designed to operate at room temperature often...

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Improvement of Gas Sensing of Uniform Ag 3 PO 4 Nanoparticles to NH 3 under the Assistant of LED Lamp with Low Power Consumption at Room Temperature

ChemistrySelect ◽

10.1002/slct.202101592 ◽

2021 ◽

Vol 6 (32) ◽

pp. 8338-8344

Author(s):

Xingyan Shao ◽

Shuo Wang ◽

Leqi Hu ◽

Tingting Liu ◽

Xiaomei Wang ◽

...

Keyword(s):

Power Consumption ◽

Low Power ◽

Room Temperature ◽

Gas Sensing ◽

Low Power Consumption

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Effect of Humidity on Gas Sensing Performance of Carbon Nanotube Gas Sensors Operated at Room Temperature

IEEE Sensors Journal ◽

10.1109/jsen.2020.3038647 ◽

2020 ◽

pp. 1-1

Author(s):

Mostafa Shooshtari ◽

Alireza Salehi ◽

Sten Vollebregt

Keyword(s):

Carbon Nanotube ◽

Gas Sensors ◽

Room Temperature ◽

Gas Sensing ◽

Sensing Performance

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Mesoporous ZnO nanosheets with rich surface oxygen vacancies for UV-activated methane gas sensing at room temperature

Sensors and Actuators B Chemical ◽

10.1016/j.snb.2021.129547 ◽

2021 ◽

Vol 333 ◽

pp. 129547

Author(s):

Jing Wang ◽

Chenyu Hu ◽

Yi Xia ◽

Bo Zhang

Keyword(s):

Room Temperature ◽

Oxygen Vacancies ◽

Gas Sensing ◽

Surface Oxygen ◽

Methane Gas ◽

Zno Nanosheets ◽

Mesoporous Zno

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Transforming Pt-SnO2 Nanoparticles into Pt-SnO2 Composite Nanoceramics for Room-Temperature Hydrogen-Sensing Applications

Materials ◽

10.3390/ma14092123 ◽

2021 ◽

Vol 14 (9) ◽

pp. 2123

Author(s):

Ming Liu ◽

Caochuang Wang ◽

Pengcheng Li ◽

Liang Cheng ◽

Yongming Hu ◽

...

Keyword(s):

Room Temperature ◽

Gas Sensing ◽

Sintering Temperature ◽

Sno2 Nanoparticles ◽

Hydrogen Sensing ◽

Sensing Applications ◽

Nanostructured Metal Oxides ◽

Low Dimensional ◽

Sensing Characteristics ◽

Nanostructured Metal

Many low-dimensional nanostructured metal oxides (MOXs) with impressive room-temperature gas-sensing characteristics have been synthesized, yet transforming them into relatively robust bulk materials has been quite neglected. Pt-decorated SnO2 nanoparticles with 0.25–2.5 wt% Pt were prepared, and highly attractive room-temperature hydrogen-sensing characteristics were observed for them all through pressing them into pellets. Some pressed pellets were further sintered over a wide temperature range of 600–1200 °C. Though the room-temperature hydrogen-sensing characteristics were greatly degraded in many samples after sintering, those samples with 0.25 wt% Pt and sintered at 800 °C exhibited impressive room-temperature hydrogen-sensing characteristics comparable to those of their counterparts of as-pressed pellets. The variation of room-temperature hydrogen-sensing characteristics among the samples was explained by the facts that the connectivity between SnO2 grains increases with increasing sintering temperature, and Pt promotes oxidation of SnO2 at high temperatures. These results clearly demonstrate that some low-dimensional MOX nanocrystals can be successfully transformed into bulk MOXs with improved robustness and comparable room-temperature gas-sensing characteristics.

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