Facile modification of TiO2 as S-Scheme multifunctional materials for environmental protection and energy-storage applications

IF 8.3 2区 材料科学 Q1 MATERIALS SCIENCE, MULTIDISCIPLINARY ACS Applied Materials & Interfaces Pub Date : 2024-10-18 DOI:10.1016/j.surfin.2024.105298
Chandravadhana Arumugam , Venkatramanan Kannan , Vaithinathan Karthikeyan , Vaskuri C.S. Theja , Sirikanjana Thongmee , Choon Kit Chan , Nandakumar Velu , Dong-Eun Lee , Gopalan Anantha-Iyengar , A.L. Roy Vellaisamy
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Abstract

This paper reports a simple one-step modification of commercial TiO2 with a conducting polytrimethoxyslilypropyl aniline (PTMSPA, a polyaniline derivative having silyl networks) to have multi-functional (photocatalytic, optical, pseudocapacitive, hydrophobic, porous, antibacterial, and electromagnetic interference shielding (EMI)) properties and demonstrates associated applications. We present the S-Scheme heterojunction (SHJ) formation between TiO2 and PTMSPA through band position alignments and designate the resultant TiO2 - TiO2- based SHJ multifunctional materials as MF-TSSM. The internal electric field that is generated at the interface facilitates the transportation of the photogenerated electron transfer . The XRD pattern of MF-TSSM exhibits mainly the peaks of anatase TiO2. The TEM image of MF-TSSM indicates that the TiO2 particles are spherical in shape with sizes showing variations in diameters ranging from 60 nm to 250 nm depending on the experimental conditions of preparation and TiO2 particles are homogeneously distributed within the PTMSPA matrix. The optical energy band gap of MF-TSSM is 1.60 eV, a much lower value than PTMSPA (3.02 eV), suggesting that the composite formation between TiO2 and PTMSPA. The contact angle of MF-TSSM is significantly increased to 47.1 ° from 8.0 of TiO2, informing the increase of hydrophobic characteristics. The rate constant (k) for methylene blue photodegradation was 0.030 min-1, and 0.010 min-1 for MF-TSSM and pristine TiO2, respectively, The MF-TSSM composite exhibits a higher specific capacitance value (28.7 F/g) than TMSPA (21.1 F/g). At a frequency of 0.42 THz, MF-TSSM and PTMSPA exhibit return loss features indicating good EMI shielding performance. The MF-TSSM has been tested against two different Gram-positive and Gram-negative bacterial strains. The nanoparticles were evaluated at doses of 10, 20, 40, and 80 µg/ml. The results indicated that Klebsiella pneumoniae demonstrated a greater zone of inhibition, ranging from 9 mm at 10 µg/ml to 23 mm at 80 µg/ml, indicating increased susceptibility. Pseudomonas aeruginosa exhibited reduced inhibition zones, ranging from 10 mm at 10 µg/ml to 14 mm at 80 µg/ml, indicating increased resistance. The excellent effectiveness of MF-TSSM against various Gram-positive and Gram-negative pathogenic bacteria is explained by the interaction between reactive oxygen species and the cellular components of the bacteria as well the electrostatic interaction arising between positive charges in TMSPA and negative charges in the cell components, resulting in notable cytotoxicity and damage to the bacterial cells. The research underscores the capability of these modified TiO₂ nanoparticles in addressing bacterial infections, with efficiency differing by bacterial strain.

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将 TiO2 便捷改性为 S-Scheme 多功能材料,用于环境保护和储能应用
本文报道了用导电聚三甲氧基硅丙基苯胺(PTMSPA,一种具有硅烷网络的聚苯胺衍生物)对商用二氧化钛进行简单的一步法改性,使其具有多功能(光催化、光学、伪电容、疏水、多孔、抗菌和电磁干扰屏蔽(EMI))特性,并展示了相关应用。我们介绍了二氧化钛和 PTMSPA 之间通过带位排列形成的 S 型异质结 (SHJ),并将由此产生的基于二氧化钛 - 二氧化钛的 SHJ 多功能材料命名为 MF-TSSM。界面上产生的内部电场促进了光生电子的传输。MF-TSSM 的 XRD 图谱主要显示锐钛矿二氧化钛的峰值。MF-TSSM 的 TEM 图像表明,TiO2 颗粒呈球形,根据制备的实验条件,其直径从 60 纳米到 250 纳米不等,TiO2 颗粒均匀地分布在 PTMSPA 基质中。MF-TSSM 的光能带隙为 1.60 eV,远低于 PTMSPA(3.02 eV),表明 TiO2 与 PTMSPA 之间形成了复合材料。MF-TSSM 的接触角从 TiO2 的 8.0 显著增加到 47.1°,说明疏水特性增加了。MF-TSSM 和原始 TiO2 的亚甲基蓝光降解速率常数(k)分别为 0.030 min-1 和 0.010 min-1。在 0.42 太赫兹的频率下,MF-TSSM 和 PTMSPA 显示出回波损耗特征,表明其具有良好的 EMI 屏蔽性能。MF-TSSM 针对两种不同的革兰氏阳性和革兰氏阴性细菌菌株进行了测试。纳米粒子的剂量分别为 10、20、40 和 80 µg/ml。结果表明,肺炎克雷伯氏菌的抑制面积更大,从 10 µg/ml 时的 9 毫米到 80 µg/ml 时的 23 毫米不等,表明其敏感性增加。铜绿假单胞菌的抑制区缩小,从 10 微克/毫升时的 10 毫米到 80 微克/毫升时的 14 毫米不等,表明耐药性增强。MF-TSSM 对各种革兰氏阳性和革兰氏阴性致病菌的卓越功效可解释为活性氧与细菌细胞成分之间的相互作用,以及 TMSPA 中的正电荷与细胞成分中的负电荷之间产生的静电作用,从而对细菌细胞产生显著的细胞毒性和破坏作用。这项研究强调了这些修饰过的₂氧化钛纳米粒子在应对细菌感染方面的能力,其效率因细菌菌株而异。
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来源期刊
ACS Applied Materials & Interfaces
ACS Applied Materials & Interfaces 工程技术-材料科学:综合
CiteScore
16.00
自引率
6.30%
发文量
4978
审稿时长
1.8 months
期刊介绍: ACS Applied Materials & Interfaces is a leading interdisciplinary journal that brings together chemists, engineers, physicists, and biologists to explore the development and utilization of newly-discovered materials and interfacial processes for specific applications. Our journal has experienced remarkable growth since its establishment in 2009, both in terms of the number of articles published and the impact of the research showcased. We are proud to foster a truly global community, with the majority of published articles originating from outside the United States, reflecting the rapid growth of applied research worldwide.
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