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Correction

Correction: Bibi et al. Valorization of Agricultural Waste as a Chemiresistor H2S-Gas Sensor: A Composite of Biodegradable-Electroactive Polyurethane-Urea and Activated-Carbon Composite Derived from Coconut-Shell Waste. Polymers 2023, 15, 685

1
Department of Chemistry, Center for Nanotechnology and R & D Center for Membrane Technology at Chung Yuan Christian University, Chung Li 32023, Taiwan
2
Department of Chemistry, College of Science, Research Center for the Natural and Applied Sciences, University of Santo Tomas, Manila 1015, Philippines
3
Department of Molecular Science and Engineering, National Taipei University of Technology, Taipei 10608, Taiwan
*
Authors to whom correspondence should be addressed.
Polymers 2024, 16(17), 2504; https://doi.org/10.3390/polym16172504
Submission received: 21 August 2024 / Accepted: 22 August 2024 / Published: 3 September 2024
References [42,43] have been removed as they have been identified as being irrelevant to our study due to a scope mismatch. With this correction, the order of some references has been adjusted accordingly. The authors state that the scientific conclusions are unaffected. This correction was approved by the Academic Editor. The original publication has also been updated [1].
[42]
Bahadur, A.; Iqbal, S.; Alsaab, H.O.; Awwad, N.S.; Ibrahium, H.A. Designing a novel visible-light-driven heterostructure Ni–ZnO/S-g-C3N4 photocatalyst for coloured pollutant degradation. RSC Adv. 2021, 11, 36518–36527.
[43]
Iqbal, S.; Bahadur, A.; Javed, M.; Liu, G.; Al-Muhimeed, T.I.; AlObaid, A.A.; Ahmad, Z.; Feng, K.; Xiao, D. Synergetic intimate interface contacts of 2D/1D S-g-C3N4/Co-NiS heterojunction with spatial charge separation for boosting photodegradation of MB and inactivation of pathogens under visible light irradiation. J. Alloys Compd. 2021, 892, 162012.

Reference

  1. Bibi, A.; Santiago, K.S.; Yeh, J.-M.; Chen, H.-H. Valorization of Agricultural Waste as a Chemiresistor H2S-Gas Sensor: A Composite of Biodegradable-Electroactive Polyurethane-Urea and Activated-Carbon Composite Derived from Coconut-Shell Waste. Polymers 2023, 15, 685. [Google Scholar] [CrossRef] [PubMed]
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MDPI and ACS Style

Bibi, A.; Santiago, K.S.; Yeh, J.-M.; Chen, H.-H. Correction: Bibi et al. Valorization of Agricultural Waste as a Chemiresistor H2S-Gas Sensor: A Composite of Biodegradable-Electroactive Polyurethane-Urea and Activated-Carbon Composite Derived from Coconut-Shell Waste. Polymers 2023, 15, 685. Polymers 2024, 16, 2504. https://doi.org/10.3390/polym16172504

AMA Style

Bibi A, Santiago KS, Yeh J-M, Chen H-H. Correction: Bibi et al. Valorization of Agricultural Waste as a Chemiresistor H2S-Gas Sensor: A Composite of Biodegradable-Electroactive Polyurethane-Urea and Activated-Carbon Composite Derived from Coconut-Shell Waste. Polymers 2023, 15, 685. Polymers. 2024; 16(17):2504. https://doi.org/10.3390/polym16172504

Chicago/Turabian Style

Bibi, Aamna, Karen S. Santiago, Jui-Ming Yeh, and Hsiu-Hui Chen. 2024. "Correction: Bibi et al. Valorization of Agricultural Waste as a Chemiresistor H2S-Gas Sensor: A Composite of Biodegradable-Electroactive Polyurethane-Urea and Activated-Carbon Composite Derived from Coconut-Shell Waste. Polymers 2023, 15, 685" Polymers 16, no. 17: 2504. https://doi.org/10.3390/polym16172504

APA Style

Bibi, A., Santiago, K. S., Yeh, J. -M., & Chen, H. -H. (2024). Correction: Bibi et al. Valorization of Agricultural Waste as a Chemiresistor H2S-Gas Sensor: A Composite of Biodegradable-Electroactive Polyurethane-Urea and Activated-Carbon Composite Derived from Coconut-Shell Waste. Polymers 2023, 15, 685. Polymers, 16(17), 2504. https://doi.org/10.3390/polym16172504

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