成果/Result
- Preparation of Targeted Lignin-Based Hollow Nanoparticles for the Delivery of Doxorubicin被引量:51收藏
- 作者:Zhou, Yu[1] Han, Yanming[1] Li, Gaiyun[1] Yang, Sheng[1] Xiong, Fuquan[2]
- 机构:Chinese Acad Forestry;Cent South Univ Forestry & Technol
- 来源:NANOMATERIALS 2019
- 关键词:lignin nanoparticles targeted materials drug delivery
- Developing an antifungal and high-strength soy protein-based adhesive modified by lignin-based polymer被引量:45收藏
- 作者:Chen, Shiqing[1] Chen, Huan[1] Yang, Sheng[1] Fan, Dongbin[1]
- 机构:Chinese Acad Forestry
- 来源:INDUSTRIAL CROPS AND PRODUCTS 2021
- 关键词:Soybean meal adhesive Lignin-based polymer ANtifungal abiility Adhesion strength
- Improvement of the Performance of Plantation Wood by Grafting Water-Soluble Vinyl Monomers onto Cell Walls被引量:34收藏
- 作者:Qiu, Hongbo[1,2] Yang, Sheng[3] Han, Yanming[2] Shen, Xiaoshuang[2] Fan, Donbin[2]
- 机构:Chinese Acad Forestry;Chinese Acad Forestry;Chinese Acad Forestry
- 来源:ACS SUSTAINABLE CHEMISTRY & ENGINEERING 2018
- 关键词:Water-soluble vinyl monomers Grafting Cell walls Plantation wood
- Dual-Enhanced Hydrophobic and Mechanical Properties of Long-Range 3D Anisotropic Binary-Composite Nanocellulose Foams via Bidirectional Gradient Freezing被引量:32收藏
- 作者:Chen, Yuan[1,2] Yang, Sheng[1] Fan, Dongbin[1] Li, Gaiyun[1,2] Wang, Siqun[1,3]
- 机构:Chinese Acad Forestry;Chinese Acad Forestry;Univ Tennessee
- 来源:ACS SUSTAINABLE CHEMISTRY & ENGINEERING 2019
- 关键词:elasticity-enhanced bidirectional gradient freezing 3D anisotropic nanocellulose foam silylated modification
- Eco-Friendly Phenol-Urea-Formaldehyde Co-condensed Resin Adhesives Accelerated by Resorcinol for Plywood Manufacturing被引量:29收藏
- 作者:Pang, Bo[1] Li, Ming-Kan[1] Yang, Sheng[2] Yuan, Tong-Qi[1] Du, Guan-Ben[3]
- 机构:Beijing Forestry Univ;Chinese Acad Forestry;Southwest Forestry Univ
- 来源:ACS OMEGA 2018
- Improvement in Wood Bonding Strength of Poly (Vinyl Acetate-Butyl Acrylate) Emulsion by Controlling the Amount of Redox Initiator被引量:23收藏
- 作者:Zhang, Yun[1] Pang, Bo[1] Yang, Sen[1] Fang, Wei[1] Yang, Sheng[2]
- 机构:Beijing Forestry Univ;Chinese Acad Forestry
- 来源:MATERIALS 2018
- 关键词:poly (vinyl acetate-butyl acrylate) redox initiator emulsion polymerization core-shell structure
- Chemical Profiles of Cultivated Agarwood Induced by Different Techniques被引量:21收藏
- 作者:Yan, Tingting[1] Yang, Sheng[2] Chen, Yuan[2] Wang, Qian[2] Li, Gaiyun[2]
- 机构:Chinese Acad Forestry;Chinese Acad Forestry
- 来源:MOLECULES 2019
- 关键词:cultivated agarwood Aquilaria sinensis 2-(2-phenylethyl)-chromone sesquiterpenoid
- Lignin-Based Hollow Nanoparticles for Controlled Drug Delivery: Grafting Preparation Using beta-Cyclodextrin/Enzymatic-Hydrolysis Lignin被引量:20收藏
- 作者:Zhou, Yu[1,2] Han, Yanming[1] Li, Gaiyun[1] Yang, Sheng[1] Chu, Fuxiang[1]
- 机构:Chinese Acad Forestry;Yancheng Inst Technol
- 来源:NANOMATERIALS 2019
- 关键词:lignin beta-cyclodextrin hollow nanoparticles hydroxycamptothecin sustained release
- Water vapor sorption mechanism of furfurylated wood被引量:17收藏
- 作者:Shen, Xiaoshuang[1] Guo, Dengkang[1] Jiang, Pan[1] Yang, Sheng[1] Li, Gaiyun[1]
- 机构:Chinese Acad Forestry
- 来源:JOURNAL OF MATERIALS SCIENCE 2021
- 关键词:Moisture control - Sorption - Wood
- Preparation and mechanical failure analysis of wood-epoxy polymer composites with excellent mechanical performances被引量:15收藏
- 作者:Guo, Dengkang[1] Guo, Nai[1] Fu, Feng[1] Yang, Sheng[1] Li, Gaiyun[1]
- 机构:Chinese Acad Forestry;Chinese Acad Forestry
- 来源:COMPOSITES PART B-ENGINEERING 2022
- 关键词:Wood-epoxy polymer composites Mechanical properties Cell walls Cell cavities Failure mechanism
- Effect of Furfurylation on Hierarchical Porous Structure of Poplar Wood被引量:14收藏
- 作者:Shen, Xiaoshuang[1] Jiang, Pan[1] Guo, Dengkang[1] Li, Gaiyun[1] Chu, Fuxiang[1]
- 机构:Chinese Acad Forestry
- 来源:POLYMERS 2021
- 关键词:wood furfurylation hierarchical pore porosity pore distribution
- Reaction mechanisms of furfuryl alcohol polymer with wood cell wall components被引量:13收藏
- 作者:Shen, Xiaoshuang[1] Guo, Dengkang[1] Jiang, Pan[1] Li, Gaiyun[1] Yang, Sheng[1]
- 机构:Chinese Acad Forestry
- 来源:HOLZFORSCHUNG 2021
- 关键词:cellulose chemical reaction furfurylation hemicellulose lignin wood cell walls
- Structure and Monomer Ratio of Lignin in C3H and HCT RNAi Transgenic Poplar Saplings被引量:12收藏
- 作者:Zhou, Xianwu[1,2] Yang, Sheng[2] Lu, Mengzhu[3] Zhao, Shutang[3] Cai, Liping[4]
- 机构:Jishou Univ;Chinese Acad Forestry;Chinese Acad Forestry;Univ North Texas;Nanjing Forestry Univ
- 来源:CHEMISTRYSELECT 2020
- 关键词:C3H-downregulated transgenic poplar Gene technology HCT-downregulated transgenic poplar Lignin structure Materials SCIence
- Improving physical properties of wood-polymer composites by building stable interface structure between swelled cell walls and hydrophobic polymer被引量:11收藏
- 作者:Guo, Dengkang[1] Shen, Xiaoshuang[1] Fu, Feng[1] Yang, Sheng[1] Li, Gaiyun[1]
- 机构:Chinese Acad Forestry
- 来源:WOOD SCIENCE AND TECHNOLOGY 2021
- 关键词:Composite structures - Compressive strength - Hydrophobicity - Styrene - Wood
- The contribution mechanism of furfuryl alcohol treatment on the dimensional stability of plantation wood被引量:8收藏
- 作者:Shen, Xiaoshuang[1,2] Yang, Sheng[2,3] Li, Gaiyun[2] Liu, Shengquan[1] Chu, Fuxiang[2]
- 机构:Anhui Agr Univ;Chinese Acad Forestry;1 Dongxiaofu Xiangshan Rd
- 来源:INDUSTRIAL CROPS AND PRODUCTS 2022
- 关键词:Anti-swelling efficiency Cell wall bulking Furfurylation Mechanism Wood
- Analysis of phenolic compounds obtained from bamboo microwave liquefaction for fast-curing phenol-formaldehyde resin preparation被引量:7收藏
- 作者:Yang, Sheng[1] Fan, Dong-Bin[1] Li, Gai-Yun[1]
- 机构:Chinese Acad Forestry
- 来源:JOURNAL OF APPLIED POLYMER SCIENCE 2019
- 关键词:bamboo fast curing microwave liquefaction phenolic compounds phenolic resin
- The key odor-active components differed in cultured agarwood from two germplasms of Aquilaria. sinensis trees被引量:3收藏
- 作者:Yan, Tingting[1] Hu, Zekun[1] Chen, Yuan[1] Yang, Sheng[1] Zhang, Peng[1,2]
- 机构:Chinese Acad Forestry;Chinese Acad Forestry
- 来源:INDUSTRIAL CROPS AND PRODUCTS 2023
- 关键词:Qi-Nan agarwood Ordinary agarwood HS-SPME-GC-O-MS AEDA Odor active components PEC
- Modification mechanism of plantation wood via grafting epoxy monomers onto cell walls被引量:2收藏
- 作者:Guo, Dengkang[1] Yang, Sheng[1] Fu, Feng[1] Guo, Nai[1] Li, Gaiyun[1]
- 机构:Chinese Acad Forestry;Chinese Acad Forestry
- 来源:WOOD SCIENCE AND TECHNOLOGY 2022
- 关键词:Biodegradation - Compressive strength - Curing - Decay (organic) - Grafting (chemical) - Monomers
- Effects of action processes on wood modification: the in situ polymerization of epoxy monomers as an example被引量:2收藏
- 作者:Guo, Dengkang[1] Yang, Sheng[1] Fu, Feng[1] Li, Gaiyun[1] Chu, Fuxiang[1]
- 机构:Chinese Acad Forestry
- 来源:WOOD SCIENCE AND TECHNOLOGY 0
- Sieving and hydrothermal pre-treatments for preparing ultra-high mechanical strength particleboard被引量:1收藏
- 作者:Zhou, Tong[1] Pang, Bo[1] Cao, Xue-Fei[1] Bao, Ningzhong[2] Zhu, Chen-Jie[3]
- 机构:Beijing Forestry Univ;Nanjing Tech Univ;Nanjing Tech Univ;Chinese Acad Forestry;Beijing Forestry Univ
- 来源:JOURNAL OF APPLIED POLYMER SCIENCE 0
- 关键词:eco-efficient technology particleboard reed
- New strategy for the preparation of ultra-high-strength wood-epoxy polymer composites被引量:0收藏
- 作者:Guo, Dengkang[1] Yang, Sheng[1,2] Fu, Feng[1] Li, Gaiyun[1,2] Chu, Fuxiang[1]
- 机构:Chinese Acad Forestry;1 Dongxiaofu Xiangshan Rd
- 来源:COMPOSITES COMMUNICATIONS 2022
- 关键词:Wood Selective compression Bio-composite Mechanical properties Strength
- Green Strategy for Improving the Formation of Reconstituted Wood-Based Composites被引量:0收藏
- 作者:Yang, Sheng[1] Gui, Chengsheng[2] Fan, Dongbin[1] Li, Gaiyun[1]
- 机构:Chinese Acad Forestry;Zhejiang Shenghua Yunfeng New Mat Co Ltd
- 来源:ACS SUSTAINABLE CHEMISTRY & ENGINEERING 2023
- 关键词:wood-based composite hot-pressing gluing deep eutectic system dimensional stability
- A novel strategy accomplished by cell wall annular thickening with polymer for improving the mechanical performances of plantation wood被引量:0收藏
- 作者:Yang, Sheng[1] Guo, Dengkang[1] Fu, Feng[1] Han, Xiao[1] Li, Gaiyun[1,2]
- 机构:Chinese Acad Forestry;1 Dongxiaofu Xiangshan Rd
- 来源:COMPOSITES COMMUNICATIONS 2023
- 关键词:Bionic strategy Wood cell wall Annular thickening Mechanical performance
