Preparation of high‐performance polymer sensitive membrane for rapid and sensitive detection of ammonium ions in aqueous solution

Polymer sensitive membrane is a key component of the ammonium ion selective electrode (ISE). Developing a high‐performance ammonium ion polymer sensitive membrane can promote production and application of the electrode, reducing costs and simplifying ammonia nitrogen detection. In this study, we mod...

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Bibliographic Details
Published in:Journal of applied polymer science 2025-01, Vol.142 (3), p.n/a
Main Authors: Li, Tianbing, Lu, Xiaozhen, Chen, Haonan, Cai, Junlong, Gao, Hongbo, Zhu, Xuewu, Yu, Jian, Li, Guangchao
Format: Article
Language:English
Subjects:
AgNPs@MXene
Ammonia
Ammonium chloride
ammonium ion selective electrode
Antimicrobial agents
Aqueous solutions
Chemical synthesis
electrode slope
Electrodes
ion selective membrane
Maintenance costs
Membranes
MXenes
Nanoparticles
Nitrogen
Polymers
Response time
Service life
Silver
Transition metals
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Summary:Polymer sensitive membrane is a key component of the ammonium ion selective electrode (ISE). Developing a high‐performance ammonium ion polymer sensitive membrane can promote production and application of the electrode, reducing costs and simplifying ammonia nitrogen detection. In this study, we modified the surface of the ammonium ion selective membrane and synthesized a low‐cost antimicrobial material by anchoring the broad‐spectrum antimicrobial agent, silver nanoparticles (AgNPs), on the surface of two‐dimensional transition metal car‐ bides (Ti3C2Tx MXene). This material can be used as a carrier to avoid the release of AgNPs. The inorganic antimicrobial agent AgNPs@MXene was adhered to the surface of the ammonium ion‐selective membrane by polydopamine, forming an antimicrobial coating. The modified ammonium ion‐selective electrode had a rapid response time of 12 s, with an average response time of 12.4 s. After repeated tests, a lower detection limit of 5.89 × 10−7 (10−6.23) mol/L was achieved in ammonium chloride solution. These results indicate that the ammonium ion monitoring electrode we prepared can effectively monitor ammonia nitrogen concentration in sewage and wastewater over a long period of time. This also enhances the service life of the ammonium ISE and reduces maintenance costs for the sensor. In this research, a modified ammonium ion selective membrane was developed by surface modification and synthesis of an antimicrobial material using silver nanoparticles (AgNPs) anchored on two‐dimensional transition metal carbides (Ti3C2Tx MXene). This material can be used as a carrier to avoid the release of AgNPs. The inorganic antimicrobial agent AgNPs@MXene was adhered to the surface of the ammonium ion‐selective membrane by polydopamine, forming an antimicrobial coating. Amended ammonium ion selective electrodes enhance electrode production and usage by improving response times and lowering detection limits, thereby reducing costs and streamlining ammonia nitrogen detection and maintenance expenses.
ISSN:0021-8995
1097-4628
DOI:10.1002/app.56362