Evaluation of thermal enhanced Wood-Based Materials with high VOCs adsorption by using Carbon-nanomaterial

机译：用碳 - 纳米材料用高VOCS吸附的热增强木制材料的评价

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Porous materials with nanoscale pores are widely used to remove chemical species from the gas or liquid phase through their excellent adsorption capacities, which are closely related to the large internal surface areas and pore volumes that are generally associated with porosity. For practical industrial use, adsorptivity is one of the most important properties of porous materials with similar surface chemistry. Among carbon nanomaterials, we used exfoliated graphite nanoplatelets (xGnP). The xGnP were used to develop composite wood-based materials. These xGnP/wood composite materials were characterized via thermogravimetric analysis (TGA), and we conducted a thermal extractor (TE) analysis to evaluate the adsorption of air pollutants from plywood and high-density fiberboard (HDF) into xGnP.

机译：具有纳米级孔的多孔材料广泛用于通过它们的优异吸附能力从气体或液相中除去化学物质，其与大型内表面积和通常与孔隙率相关的孔体积密切相关。对于实际工业用途，吸附性是具有相似表面化学的多孔材料最重要的特性之一。在碳纳米材料中，我们使用exfolated石墨纳米键（XGNP）。 XGNP用于开发复合木基材料。通过热重分析（TGA）表征了这些XGNP /木质复合材料，我们进行了热提取器（TE）分析，以评估从胶合板和高密度纤维板（HDF）的空气污染物的吸附到XGNP中。

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来源
《International Conference on Indoor Air Quality and Climate》|2016年|p2028-2702|共6页
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Seunghwan Wi; Seong Jin Chang; Su-Gwang Jeong; Sumin Kim;
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中图分类计量学;
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Exfoliated graphite nanoplatelets; Wood-based materials; Thermal extractor analysis; Thermogravimetric analysis; VOCs adsorption;

机译：exfoliated石墨纳米孔;基于木材的材料;热提取器分析;热重分析;VOCS吸附;

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专利

1. Health evaluation of volatile organic compound (VOC) emissions from wood and wood-based materials. [J] . Jensen LK, Larsen A, Molhave L, Archives of environmental health . 2001,第5期

机译：木材和木质材料中挥发性有机化合物（VOC）排放的健康评估。
2. Thermal Extractor Analysis of VOCs Emitted from Building Materials and Evaluation of the Reduction Performance of Exfoliated Graphite Nanoplatelets [J] . Jeong-Hun Lee, Junhyun Kim, Sumin Kim, Indoor and built environment . 2013,第1期

机译：建材排放的挥发性有机化合物的热萃取器分析及脱落石墨纳米片的还原性能评估
3. Investigating the effective carbon material for thermal chemical vapor deposition using aniline to enhance As(V) adsorption capacity of activated carbon [J] . Pyunghwa Yoo, Yoshimasa Amano, Motoi Machida SN Applied Sciences . 2020,第7期

机译：使用苯胺调查用于热化学气相沉积的有效碳材料，增强活性炭的（V）吸附能力
4. Evaluation of thermal enhanced Wood-Based Materials with high VOCs adsorption by using Carbon-nanomaterial [C] . Seunghwan Wi, Seong Jin Chang, Su-Gwang Jeong, International Conference on Indoor Air Quality and Climate . 2016

机译：用碳 - 纳米材料用高VOCS吸附的热增强木制材料的评价
5. Study of thermally reworkable epoxy materials and thermal conductivity enhancement using carbon fiber for electronics packaging. [D] . Li, Haiying. 2003

机译：研究可热加工环氧材料和使用碳纤维增强电子封装的导热性。
6. Volatile Organic Compounds (VOCs) from Wood and Wood-Based Panels: Methods for Evaluation Potential Health Risks and Mitigation [O] . Tereza Adamová, Jaromír Hradecký, Miloš Pánek 2020

机译：来自木材和木材板的挥发性有机化合物（VOC）：评估方法潜在的健康风险和缓解
7. PERFORMANCE EVALUATION OF SVOC EMITTED FROM MATERIALS AND PRODUCTS USING THERMAL DESORPTION TEST CHAMBER METHOD [O] . Kunihiro HOSHINO, Shinsuke KATO, Qingyu ZHU, 2005

机译：使用热解吸试验室法从材料和产品中发出的SVOC性能评估

Evaluation of thermal enhanced Wood-Based Materials with high VOCs adsorption by using Carbon-nanomaterial

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