Christina E. Antony scite author profile

Christina E. Antony

2Publications

8Citation Statements Received

187Citation Statements Given

How they've been cited

How they cite others

167

Affiliations

Indian Institute of Science Education and Research, Thiruvananthapuram

Publications

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Polyvinylpyrrolidone-Stabilized Palladium Nanocrystals as Chemiresistive Sensors for Low-Concentration Hydrogen Gas Detection

Antony

Gaana

Praveen

et al. 2021

ACS Appl. Nano Mater.

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Low-concentration hydrogen (H 2 ) gas detection is of paramount importance in space applications as well as in medical applications. It is also critically important for safe handling of hydrogen below the explosive limit. Here, we report a hybrid Pd metal−polymer chemiresistive sensor that can sense 0.5% H 2 gas in ambient conditions of temperature and pressure with the highest sensitivity (∼50%) reported until now, making it an extremely good sensor for real-life low-concentration H 2 gas detection. The sensor is easy to fabricate and is also extremely cost-effective for commercial applications. The obtained hybrid chemiresistive sensor comprises palladium nanocrystals bound by oxygen and nitrogen atoms of a stabilizer, polyvinylpyrrolidone, grown on top of a self-assembled monolayer. The rise-time constant is proposed to arise from hydrogen loading at the (111) surface of the palladium nanocrystal, which is a very fast process, and subsequent fast diffusion of the H atoms from the surface into the bulk. An effort to increase the number of available sites by UV-ozone cleaning resulted in degradation of the sensing device due to poisoning of the available sites by oxygen.

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Metal-polymer hybrid chemiresistive sensor for low concentration fast hydrogen detection

Antony¹,

Praveen²,

Jayakumar³

et al. 2020

Preprint

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Low concentration hydrogen gas detection is of paramount importance both in space applications as well as medical applications. It is also critically important for safe handling of hydrogen below the explosive limit. Here, we report a novel hybrid Pd metal-polymer chemiresistive sensor that can sense 0.5% hydrogen (H 2 ) gas in ambient conditions of temperature and pressure with the highest reported sensitivity (∼ 30%) obtained earlier by a physical deposition technique, making it an extremely good sensor for real life low concentration hydrogen gas detection. The sensor is easy to fabricate and is also extremely cost-effective for commercial applications. The obtained hybrid chemiresistive sensor comprises palladium (Pd) nanocrystals bound by oxygen and

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