期刊
POLYMERS
卷 14, 期 2, 页码 -出版社
MDPI
DOI: 10.3390/polym14020257
关键词
fast-growing poplar veneers; acetylated modification; interface compatibility; optical performance; thermal conductivity
资金
- Single technology research and development of Jiangsu modern agricultural industry [CX (20) 3174]
This study demonstrates the preparation of transparent fast-growing poplar veneers through acetylated modification and epoxy resin infiltration. The acetylation treatment improves the hydrophobicity of the interface and enhances the compatibility between the cell wall and epoxy resin. The obtained transparent fast-growing poplar veneers show excellent optical performance and flexibility, making them a potential candidate for flexible transparent substrates in electronic devices.
There has been growing interest in transparent conductive substrates due to the prevailing flexible electron devices and the need for sustainable resources. In this study, we demonstrated a transparent fast-growing poplar veneers prepared by acetylated modification, followed by the infiltration of epoxy resin. The work mainly focused on the effect of acetylation treatment using a green catalyst of 4-Dimethylpyridine on the interface of the bulk fast-growing poplar veneer, and the result indicated that the interface hydrophobicity was greatly enhanced due to the higher substitute of acetyl groups; therefore, the interface compatibility between the cell wall and epoxy resin was improved. The obtained transparent fast-growing poplar veneers, hereafter referred to as TADPV, displayed a superior optical performance and flexibility, in which the light transmittance and haze were 90% and 70% at a wavelength of 550 nm, respectively, and the bending radius and bending angle parallel to grain of TADPV were 2 mm and 130 degrees, respectively. Moreover, the tensile strength and tensile modulus of the TADPV were around 102 MPa and 198 MPa, respectively, which is significantly better than those of the plastic substrates used in flexible electron devices. At the same time, the thermal conductivity tests indicated that TADPV has a low coefficient of thermal conductivity of 0.34 Wm(-1) K-1, which can completely meet the needs of transparent conductive substrates. Therefore, the obtained TADPV can be used as a candidate for a flexible transparent substrate of electron devices.
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