成果/Result
- Combining Renewable Gum Rosin and Lignin: Towards Hydrophobic Polymer Composites by Controlled Polymerization被引量:158收藏
- 作者:Wang, Jifu[1,2,3] Ya, Kejian[1,2] Korich, Andrew L.[4] Li, Shigeng[5] Ma, Shuguo[5]
- 机构:Univ S Carolina;Univ S Carolina;Chinese Acad Forestry;Univ San Diego;Univ S Carolina
- 来源:JOURNAL OF POLYMER SCIENCE PART A-POLYMER CHEMISTRY 2011
- 关键词:atom transfer radical polymerization (ATRP) composites hydrophobicity lignin renewable resources rosin
- Robust antimicrobial compounds and polymers derived from natural resin acids被引量:136收藏
- 作者:Wang, Jifu[1,2,3] Chen, Yung Pin[1,2] Yao, Kejian[1,2] Wilbon, Perry A.[1,2] Zhang, Wujie[4]
- 机构:Univ S Carolina;Univ S Carolina;Chinese Acad Forestry;Ohio State Univ;Univ S Carolina
- 来源:CHEMICAL COMMUNICATIONS 2012
- Degradable Rosin-Ester-Caprolactone Graft Copolymers被引量:109收藏
- 作者:Yao, Kejian[1,2] Wang, Jifu[1,2,5] Zhang, Wujie[3,4] Lee, James S.[1,2] Wang, Chunpeng[5]
- 机构:Univ S Carolina;Univ S Carolina;Univ S Carolina;Univ S Carolina;Chinese Acad Forestry
- 来源:BIOMACROMOLECULES 2011
- 关键词:Biocompatibility - Biopolymers - Contact angle - Esters - Glass transition - Graft copolymers - Grafting (chemical) - Hydrocarbon refining - Hydrocarbons
- Mimicking skin cellulose hydrogels for sensor applications被引量:89收藏
- 作者:Zhang, Daihui[1,3] Jian, Junyu[1,3] Xie, Yitong[1,3] Gao, Shishuai[1,3] Ling, Zhe[3]
- 机构:Chinese Acad Forestry;McGill Univ;Nanjing Forestry Univ
- 来源:CHEMICAL ENGINEERING JOURNAL 2022
- 关键词:Cellulose Self-assembly Biomimetic hydrogel Strain sensor
- Sustainable thermoplastic elastomers derived from renewable cellulose, rosin and fatty acids被引量:82收藏
- 作者:Liu, Yupeng[1,2] Yao, Kejian[2] Chen, Xiaoming[3] Wang, Jifu[1] Wang, Zhongkai[4]
- 机构:Chinese Acad Forestry;Univ S Carolina;Univ S Carolina;Univ Sci & Technol China
- 来源:POLYMER CHEMISTRY 2014
- 关键词:Atom transfer radical polymerization - Biomechanics - Cellulose - Creep testing - Elasticity - Fatty acids - Free radical reactions - Glass transition - Graft copolymers - Grafting (chemical) - Natural resources - Reinforced plastics - Strain - Tensile testing
- Fabrication of lignin based renewable dynamic networks and its applications as self -healing, antifungal and conductive adhesives被引量:81收藏
- 作者:Gao, Shishua[1,2,3] Cheng, Zenghui[1,3] Zhou, Xi[1,3] Liu, Yupeng[1,3] Wang, Jifu[1,3]
- 机构:Chinese Acad Forestry;Beijing Forestry Univ;Nanjing Forestry Univ
- 来源:CHEMICAL ENGINEERING JOURNAL 2020
- 关键词:Crosslinking - Fatty acids - Fungi - Grafting (chemical) - Lignin - Living polymerization - Physicochemical properties - Self-healing materials - Temperature
- A multiscale biomimetic strategy to design strong, tough hydrogels by tuning the self-assembly behavior of cellulose被引量:64收藏
- 作者:Xie, Yitong[1,2,3] Gao, Shishuai[1,2] Ling, Zhe[2] Lai, Chenhuan[2] Huang, Yuxiang[5]
- 机构:Chinese Acad Forestry;Nanjing Forestry Univ;Beijing Forestry Univ;McGill Univ;Chinese Acad Forestry
- 来源:JOURNAL OF MATERIALS CHEMISTRY A 2022
- 关键词:Adhesives - Biomimetics - Cellulose - Economic and social effects - Musculoskeletal system - Self assembly - Tensile strength - Toughness
- Upgrading wood biorefinery: An integration strategy for sugar production and reactive lignin preparation被引量:64收藏
- 作者:Wang, Kai[1] Gao, Shishuai[1,2] Lai, Chenhuan[1] Xie, Yitong[2] Sun, Yu[3]
- 机构:Nanjing Forestry Univ;Chinese Acad Forestry;Chinese Acad Sci
- 来源:INDUSTRIAL CROPS AND PRODUCTS 2022
- 关键词:Biorefinery Enzymatic hydrolysis Lignin Controlled radical polymerization Self-healing adhesive
- Ethyl cellulose based self-healing adhesives synthesized via RAFT and aromatic schiff-base chemistry被引量:42收藏
- 作者:Gong, Xuanang[1,2] Cheng, Zenghui[1,3] Gao, Shishuai[1,3] Zhang, Daihui[1,3] Ma, Yufeng[2,3]
- 机构:Chinese Acad Forestry;Nanjing Forestry Univ;Nanjing Forestry Univ
- 来源:CARBOHYDRATE POLYMERS 2020
- 关键词:Adhesives Ethyl cellulose Schiff base Self-Healing Vanillin
- Unexpected role of amphiphilic lignosulfonate to improve the storage stability of urea formaldehyde resin and its application as adhesives被引量:37收藏
- 作者:Gao, Shishuai[1,2,3] Cheng, Zenghui[1,3] Zhou, Xi[1,3] Liu, Yupeng[1,3] Chen, Riqing[1,3]
- 机构:Chinese Acad Forestry;Beijing Forestry Univ;Nanjing Forestry Univ
- 来源:INTERNATIONAL JOURNAL OF BIOLOGICAL MACROMOLECULES 2020
- 关键词:Lignosulfonate Surfactant Storage stability Urea formaldehyde resin Adhesive
- A skin-inspired biomimetic strategy to fabricate cellulose enhanced antibacterial hydrogels as strain sensors被引量:37收藏
- 作者:Jian, Junyu[1,2,3,4] Xie, Yitong[1,2,3,4] Gao, Shishuai[1,2,3,4] Sun, Yu[6] Lai, Chenhuan[5]
- 机构:Inst Chem Ind Forest Prod;Natl Engn Lab Biomass Chem Utilizat;Natl Forestry & Grassland Adm;Key Lab Biomass Energy & Mat;Nanjing Forestry Univ
- 来源:CARBOHYDRATE POLYMERS 2022
- 关键词:Cellulose Silver nanoparticle Anti -bacterial Hydrogels Strain sensors
- Chemical modification of organosolv lignin using boronic acid-containing reagents被引量:33收藏
- 作者:Korich, Andrew L.[5] Fleming, Andrew B.[1] Walker, Amanda R.[1] Wang, Jifu[2,3,4] Tang, Chuanbing[2,3]
- 机构:Univ San Diego;Univ S Carolina;Univ S Carolina;Chinese Acad Forestry;Grand Valley State Univ
- 来源:POLYMER 2012
- 关键词:Biopolymers Graft copolymers Star polymers
- Polymeric Hydrogel Nanocapsules: A Thermo and pH Dual-responsive Carrier for Sustained Drug Release被引量:30收藏
- 作者:Nan, Jingya[1] Chen, Ying[1,2] Li, Rutian[3,4] Wang, Jifu[1] Liu, Meihong[1]
- 机构:Chinese Acad Forestry;Chinese Acad Forestry;Nanjing Univ;Nanjing Univ;Chinese Acad Forestry
- 来源:NANO-MICRO LETTERS 2014
- 关键词:Hydrogel capsules Sustained release High drug loading Dual responsivity
- Combination of acid treatment and dual network fabrication to stretchable cellulose based hydrogels with tunable properties被引量:20收藏
- 作者:Niu, Li[1,2,3,4] Zhang, Daihui[1,2,3,4,5] Liu, Yupeng[1,2,3,4,5] Zhou, Xi[1,2,3,4,5] Wang, Jifu[1,2,3,4,5]
- 机构:Chinese Acad Forestry;Natl Engn Lab Biomass Chem Utilizat;Natl Forestry & Grassland Adm;Key Lab Biomass Energy & Mat;Nanjing Forestry Univ
- 来源:INTERNATIONAL JOURNAL OF BIOLOGICAL MACROMOLECULES 2020
- 关键词:Cellulose Hydrogels Dual network Acid treatment Improved properties
- Synthesis and characterization of a novel rosin-based monomer: free-radical polymerization and epoxy curing被引量:20收藏
- 作者:Wang, Jifu[1,2,3,4,5] Yu, Juan[1,2,3,4,5] Liu, Yupeng[1,2,3,4,5] Chen, Ying[1,2,3,4,5] Wang, Chunpeng[1,2,3,4,5]
- 机构:Chinese Acad Forestry;Key Lab Biomass Energy & Mat;Natl Engn Lab Biomass Chem Utilizat;SFA;Chinese Acad Forestry
- 来源:GREEN MATERIALS 2013
- 关键词:Biomass polymeric materials renewable resources
- 水热法碱活化生物质乙醇木质素的化学结构变化被引量:13收藏
- 作者:刘晓欢[1] 张明明[1] 王基夫[1] 许玉芝[1] 王春鹏[1,2]
- 机构:中国林业科学研究院林产化学工业研究所;中国林业科学研究院林业新技术研究所
- 来源:《光谱学与光谱分析》 2013
- 关键词:红外光谱 生物质乙醇木质素 水热法 碱性 反应活性
- 摘要:为了提高生物质乙醇木质素的反应活性,采用水热法在四种不同碱性条件下对生物质乙醇木质素进行催化活化处理。运用傅里叶变换红外光谱(FTIR)、核磁共振氢谱(1 H-NMR)、凝胶色谱(GPC)和有机元素分析手段研究了生物质乙...
- 其他来源数据库:
万方期刊数据库
同方期刊数据库 - 下载全文在线阅读
- 丙烯酰氯改性木质素模型物制备丙烯酸单体及聚合活性分析被引量:2收藏
- 作者:刘晓欢[1] 王春鹏[1,2] 王基夫[1] 许玉芝[1] 储富祥[1,2]
- 机构:中国林业科学研究院林产化学工业研究所;中国林业科学研究院林业新技术研究所
- 来源:《光谱学与光谱分析》 2014
- 关键词:木质素模型化合物 二氢丁香酚 丙烯酰氯 聚合活性
- 摘要:以木质素模型化合物二氢丁香酚(DH)为原料,利用丙烯酰氯(AC)进行接枝改性制备丙烯酸二氢丁香酚酯(DH-AC)。采用傅里叶变换红外光谱(FTIR)、气相色谱-质谱联用仪(GC-MS)、核磁共振氢谱(~1HNMR)和凝胶...
- 其他来源数据库:万方期刊数据库同方期刊数据库
- 下载全文在线阅读
- Synthesis and Characterization of Amphiphilic Cellulose-g-PMAEDA Graft Copolymers被引量:2收藏
- 作者:Yu, Juan[1,2,3] Liu, Shao-feng[1,2,3] Liu, Yu Peng[1,2,3,4] Wang, Chun-peng[1,2,3,4] Wang, Ji-fu[1,2,3,4]
- 机构:Chinese Acad Forestry;State Forestry Adm;State Forestry Adm;Chinese Acad Forestry
- 来源:ACTA POLYMERICA SINICA 2016
- 关键词:Cellulose Dehydroabietic acid Amphiphilic Atom transfer radical polymerization
- Degradable rosin-caprolactone copolymers被引量:1收藏
- 作者:Yao, Kejian[1,2] Wang, Jifu[1,2,5] Zhang, Wujie[3,4] Lee, James S.[1,2] Wang, Chunpeng[5]
- 机构:Univ S Carolina;Univ S Carolina;Univ S Carolina;Univ S Carolina;Chinese Acad Forestry
- 来源:ABSTRACTS OF PAPERS OF THE AMERICAN CHEMICAL SOCIETY 2012
- Pickering multiphase materials using plant-based colloidal lignin nanoparticles被引量:0收藏
- 作者:Gan, Jian[1,4] Zhan, Yifei[2] Fan, Jing[2] Wang, Jifu[3] Gao, Qi[4]
- 机构:Nanjing Forestry Univ;Univ Gottingen;Chinese Acad Forestry;Chinese Acad Forestry
- 来源:GREEN CHEMISTRY 2025
