Repeatability of Adhesion Force Measurement on Wood Longitunial Cut Cell Wall Using Atomic Force Microscopy

IF 0.8 4区 工程技术 Q3 FORESTRY Wood and Fiber Science Pub Date : 2021-02-05 DOI:10.22382/WFS-2021-02
Juan Li, Kasal Bohumil
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引用次数: 3

Abstract

As a powerful tool to investigate the surface properties at a nano-scale resolution, the atomic force microscopy (AFM) encounters challenges in the measurement of plant materials such as wood surface. In particular, for rough and heterogeneous surfaces, a robust and easily performed positioning method is necessary for reproducible measurements. One of the critical issues is the ability to position the AFM tip after the specimens are removed for treatments from a device and repeatedly analyzed. If the tip is not repeatably positioned within the measured area, the natural variability of surface (such as surface roughness) can mask the effects of treatments of interest.  In this paper, a positioning method using the bordered pit of the wood radial surface as a natural marker is proposed and a systematic measurement procedure is presented. The idea results from the uniqueness of the anatomical features of a natural material (wood in this case) and low probability of having exactly the same geometry of pit clusters in the vicinity of the area of interest.  The results show that the anatomical features can be used as unique markers for precise positioning of the AFM tip.  The process is demonstrated using an example of the effect of temperature on adhesion forces on the wood surface. After the heat treatment, the wood surface layers were investigated with Fourier transform infrared spectroscopy and attenuated total reflection (FTIR-ATR).
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原子力显微镜测定木材纵切面细胞壁附着力的重复性
原子力显微镜(AFM)作为研究纳米尺度表面性质的有力工具,在测量木材表面等植物材料方面遇到了挑战。特别是,对于粗糙和不均匀的表面,需要一种稳健且易于执行的定位方法来进行可重复的测量。其中一个关键问题是在从装置中取出样品进行处理并重复分析后定位AFM尖端的能力。如果尖端没有重复定位在测量区域内,表面的自然变化(如表面粗糙度)可能会掩盖感兴趣的处理效果。本文提出了一种以木材径向表面的边坑为自然标志的定位方法,并提出了一套系统的测量程序。这一想法源于天然材料(在这种情况下是木材)解剖特征的独特性,以及在感兴趣区域附近具有完全相同的凹坑群几何形状的可能性很低。结果表明,这些解剖特征可以作为AFM尖端精确定位的独特标记。以温度对木材表面附着力的影响为例说明了这一过程。热处理后,用傅立叶变换红外光谱和衰减全反射(FTIR-ATR)对木材表面层进行了研究。
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来源期刊
Wood and Fiber Science
Wood and Fiber Science 工程技术-材料科学:纺织
CiteScore
7.50
自引率
0.00%
发文量
23
审稿时长
>12 weeks
期刊介绍: W&FS SCIENTIFIC ARTICLES INCLUDE THESE TOPIC AREAS: -Wood and Lignocellulosic Materials- Biomaterials- Timber Structures and Engineering- Biology- Nano-technology- Natural Fiber Composites- Timber Treatment and Harvesting- Botany- Mycology- Adhesives and Bioresins- Business Management and Marketing- Operations Research. SWST members have access to all full-text electronic versions of current and past Wood and Fiber Science issues.
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