Effects of Chemical Pretreatment on the Growth of TiO2 Nanoparticles on the Bamboo Surface
-
摘要: 以NaOH、HCl及NaCl为预处理介质,采用不同的溶液浓度(0.1%、1%、4%、8%),对竹材处理前后的主要化学组分进行对比分析,并通过傅里叶变换衰减全反射红外光谱(FTIR-ATR)、X射线光电子能谱(XPS)和扫描电子显微镜(SEM)进一步证实化学预处理前后竹材化学组分、形貌的变化,以获得不同的化学预处理介入下竹材化学成分的主要变化规律和机理,从而进一步探明化学预处理后对竹材表面纳米TiO2生长行为的影响。结果表明:在10 min内,相较于竹材素材、HCl和NaCl处理的竹材,NaOH处理的竹材在1 730 cm-1和1 238 cm-1处的特征峰变化明显,且随溶液浓度的升高而逐渐降低;根据XPS结果可知4%浓度的NaOH处理竹材后,竹材表面的羟基(-OH)可被Na离子完全取代,增加浓度至8%,不会继续增加Na元素的含量;此外,通过SEM和XPS证明,NaOH预处理竹材对其后期TiO2纳米粒子的负载有促进作用。Abstract: Using NaOH,HCl,and NaCl as pretreatment reagents,under different solution concentrations (0.1%,1%,4%,8%),the main chemical components of bamboo before and after treatment were analyzed. The changes in the chemical composition and morphology of the bamboo before and after chemical pretreatment were characterized by Fourier transform infrared-attenuated total reflectance spectroscopy (FTIR-ATR),X-ray photoelectron spectroscopy (XPS) and scanning electron microscopy (SEM) to obtain the main change and mechanism. Furthermore, the influence of chemical pretreatment on the growth of TiO2 nanoparticles on the bamboo surface was investigated. The results showed that after 10 min treatments, compared with original bamboo,HCl and NaCl-treated bamboo,the characteristic peaks of NaOH-treated bamboo at 1 730 cm-1 and 1 238 cm-1 were changed significantly, decreasing gradually with the increase of NaOH solution concentration. According to the XPS results,the hydroxyl (-OH) on the bamboo surface can be completely replaced by Na ions after 4% NaOH treatment. Increasing the concentration to 8% will not continue to increase the Na content. In addition,the SEM and XPS results indicated that the NaOH pretreatment can promote the loading of TiO2 nanoparticles on the bamboo surface.
-
Key words:
- Bamboo /
- Chemical pretreatment /
- Nanomaterials /
- TiO2
-
[1] 江泽慧. 竹材解剖学研究进展[J]. 世界林业研究,2020,33(3):1-6. [2] 余辉龙,杜春贵,刘宏治,等. 竹材防霉研究进展与发展前景[J]. 竹子学报,2016,35(2):46-51. [3] 李延军,许斌,张齐生,等. 我国竹材加工产业现状与对策分析[J]. 林业工程学报,2016,1(1):2-7. [4] 李景鹏. 竹材表面仿生功能构建及形成机理研究[D].杭州:浙江农林大学,2015. [5] 高丽坤. 生物质基多元复合半导体材料的制备及其多功能特性的研究[D].哈尔滨:东北林业大学,2020. [6] 孙丰波,余雁,江泽慧,等. 竹材的纳米TiO2改性及抗菌防霉性能研究[J]. 光谱学与光谱分析,2010,30(4):1056-1060. [7] 江泽慧,孙丰波,余雁,等. 竹材的纳米TiO2改性及防光变色性能[J]. 林业科学,2010,46(2):116-121. [8] 宋烨,吴义强,余雁. 二氧化钛对竹材颜色稳定性和防霉性能的影响[J]. 竹子研究汇刊,2009,28(1):30-34. [9] 陶鑫,陈琳,徐伟,等. 纳米二氧化钛改性杨木的力学性能研究[J]. 木材加工机械,2019,30(1):21-23,29. [10] 李景鹏,吴再兴,任丹静,等. 无机纳米材料在木竹材防霉防腐中的研究进展[J]. 竹子学报,2019,38(2):16-23. [11] D. Ren,J. Li,Y. Bao,et al. Low-temperature synthesis of flower-like ZnO microstructures supported on TiO2 thin films as efficient antifungal coatings for bamboo protection under dark conditions[J]. Colloids and Surfaces A:Physicochemical and Engineering Aspects,2018,555:381-388. [12] J. Li,Y. Lu,Z. Wu,et al. Durable,self-cleaning and superhydrophobic bamboo timber surfaces based on TiO2 films combined with fluoroalkylsilane[J]. Ceramics International,2016,42:9621-9629. [13] J. Li,H. Yu,Z. Wu,et al. Room temperature synthesis of crystalline anatase TiO2 on bamboo timber surface and their short-term antifungal capability under natural weather conditions[J]. Colloids and Surfaces A:Physicochemical and Engineering Aspects,2016,508:117-123. [14] 刘梦雪,程海涛,田根林,等. 竹材细胞壁主要化学成分研究进展[J]. 西南林业大学学报,2016,36(6):178-183. [15] 王小青,任海青,赵荣军,等. 毛竹材表面光化降解的FTIR和XPS分析[J]. 光谱学与光谱分析,2009,29(7):1864-1867. [16] 刘彬彬,张绍勇,周月英,等. 浸提处理对竹粉霉变性能的影响[J]. 浙江农林大学学报,2015,32(1):11-17. [17] 王洪艳,胡波,李琴,等. 氢氧化钠溶液处理对竹粉-PHBV复合材料物理力学性能的影响[J]. 竹子学报,2017,36(4):9-13. [18] 郭宇,李超,李英洁,等.木材细胞壁与木材力学性能及水分特性之间关系研究进展[J].林产工业,2019,46(8):14-18. [19] 张润华,赵昕刚,马尔妮.栓皮槠软木微观构造和化学成分的研究[J].林产工业,2019,46(1):48-52. -
点击查看大图
计量
- 文章访问数: 609
- HTML全文浏览量: 105
- PDF下载量: 83
- 被引次数: 0
下载:
