Efficient adsorption of trace formaldehyde by polyaniline/TiO2 composite at room temperature and mechanism investigation
- Release Time:2025-04-30
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Date:
2025-04-30Title of Paper:
Efficient adsorption of trace formaldehyde by polyaniline/TiO2 composite at room temperature and mechanism investigationJournal:
Atmospheric Pollution ResearchSummary:
Formaldehyde is a common indoor environmental pollutant, which poses a great harm to human body. In this study, the adsorption behavior of a novel polyaniline/TiO2 (PANI/TiO2) for formaldehyde from air at room temperature, comparing to that of activated carbon and glass beads, was investigated, and the mechanism was interpreted in details. Polyaniline/TiO2 exhibited enhanced adsorption capacity of 0.67 mg g−1 for formaldehyde acquired from the Langmuir equation, which was higher than that of commercially used activated carbon of 0.50 mg g−1. While polyaniline/TiO2 could also be stably recycled by using simple acid-base treatment. Moreover, the initial adsorption rate order of polyaniline/TiO2>activated carbon > glass beads was acquired from kinetic study, confirming the superiority in the formaldehyde removal of our polyaniline/TiO2. Confirmed by adsorption isotherm study and various characterization experiments including X-ray photoelectron spectroscopy(XPS), Fourier transform infrared spectroscopy(FT-IR), Scanning electron microscope(SEM) and N2 adsorption-desorption isotherm, the adsorption of formaldehyde on to polyaniline/TiO2 may be through a chemical adsorption, in which the amine and imine groups in the polyaniline chain play important roles in the interaction between polyaniline/TiO2 composite and formaldehyde, and the formaldehyde may form as doping groups doped onto the polyaniline/TiO2. This contributes to the advanced adsorption affinity and capacity of polyaniline towards the formaldehyde even in a trace initial concentration, outperforming the commercially available activated carbon and glass beads very much. These novel properties allow polyaniline/TiO2 to be applied as an advanced formaldehyde scavenger in next generation to protect human being from the danger of formaldehyde, challenging present commercially available formaldehyde adsorbents greatly.Co-author:
Jinwei Zhu, Jie Chen, Pengyu Zhuang, Yaoyuan Zhang, Yubing Wang, Houzhang Tan, Jiangtao Feng, Wei YanVolume:
12Page Number:
1-11Translation or Not:
NoDate of Publication:
2021-01-30