The amine unint is grafted in Lignin through Mannich reaction to compound a kind of cationic surfactant-lignin amine.The modified lignin takes on electropositive or electronegative in the diffetent pH liquors like pro...The amine unint is grafted in Lignin through Mannich reaction to compound a kind of cationic surfactant-lignin amine.The modified lignin takes on electropositive or electronegative in the diffetent pH liquors like protein does.The modifaction rate and equipotentiality of the modified lignin is measured by use of acetate fiber membrane electrophoresis.展开更多
A new method for the preparation of aminated lignin (AEL) through etherification and amination reaction was presented. Chlorine atoms were ?rstly introduced into lignin through its etheri?cation with epichlo...A new method for the preparation of aminated lignin (AEL) through etherification and amination reaction was presented. Chlorine atoms were ?rstly introduced into lignin through its etheri?cation with epichlorohydrin. Then, hydrophilic amine groups were grafted to the modi?ed lignin structure through amination with ethylenediamine to obtain AEL. Subsequent acidi?cation of AEL led to the ionized aminated lignin (IAEL). The results of our analyses showed that the nitrogen content of AEL was 6.9%. Foaming and emulsifying experiments indicated that AEL had better foamability and emulsifying properties than IAEL. Surface tension tests showed that AEL and IAEL had similar critical micelle concentration (CMC). However, IAEL had lower surface tension (36.33 mN/m) than AEL (42.89 mN/m) at CMC. These results demonstrate the promising applicability of AEL as an emulsi?er and that of IAEL as feedstock in the production of detergent and dispersant.展开更多
Lignin was extracted from peat by Sosa Method. In order to increase its chemical activity, it is necessary to make a structural modification by hydroxymethylation so it can be used in preparation of synthetic wood. De...Lignin was extracted from peat by Sosa Method. In order to increase its chemical activity, it is necessary to make a structural modification by hydroxymethylation so it can be used in preparation of synthetic wood. Depolymerization was made by two methods: (1) reaction oflignin with NaOH 2%; (2) exposition oflignin to UV beam for 6, 12, 24, 36, 48 and 60 hours. The best depolimerization result was with exposition of lignin to UV by 12 hours since phenylpropanoic structure with higher number of free positions (unoccupied carbons) in C3 and C5 of its aromatic ring was obtained. It is known by Mannich Reaction and determination of phenolic OH by UV analysis. Later, its reactivity was increased by hydroxymethylation process by means of reaction of depolymerizated product with formaldehyde and later with glyoxal since it is less toxic. The modified product was mixed with six different kinds of resins (phenol-formaldehyde, urea-formaldehyde, melamine-formaldehyde, Glyoxal-formaldehyde, urea-formaldehyde and melamine-formaldehyde) to obtain a better mechanical characteristic as a synthetic wood. The best result was the one with melamine-formaldehyde. Finally, this product was mixed with testa rice so final product showed a great hardness and a shinny and smooth appearance.展开更多
文摘The amine unint is grafted in Lignin through Mannich reaction to compound a kind of cationic surfactant-lignin amine.The modified lignin takes on electropositive or electronegative in the diffetent pH liquors like protein does.The modifaction rate and equipotentiality of the modified lignin is measured by use of acetate fiber membrane electrophoresis.
基金supported by the Research Project for Hot Tracking Items of Beijing Forestry University(2017BLRD03)the National Natural Science Foundation of China(51603012)+1 种基金the Special Science and Technology Research Program of Beijing Forestry University(2016KJ02)the Fundamental Research Funds for the Central Universities(BLYJ2016-17,BLX2015-06)
文摘A new method for the preparation of aminated lignin (AEL) through etherification and amination reaction was presented. Chlorine atoms were ?rstly introduced into lignin through its etheri?cation with epichlorohydrin. Then, hydrophilic amine groups were grafted to the modi?ed lignin structure through amination with ethylenediamine to obtain AEL. Subsequent acidi?cation of AEL led to the ionized aminated lignin (IAEL). The results of our analyses showed that the nitrogen content of AEL was 6.9%. Foaming and emulsifying experiments indicated that AEL had better foamability and emulsifying properties than IAEL. Surface tension tests showed that AEL and IAEL had similar critical micelle concentration (CMC). However, IAEL had lower surface tension (36.33 mN/m) than AEL (42.89 mN/m) at CMC. These results demonstrate the promising applicability of AEL as an emulsi?er and that of IAEL as feedstock in the production of detergent and dispersant.
文摘Lignin was extracted from peat by Sosa Method. In order to increase its chemical activity, it is necessary to make a structural modification by hydroxymethylation so it can be used in preparation of synthetic wood. Depolymerization was made by two methods: (1) reaction oflignin with NaOH 2%; (2) exposition oflignin to UV beam for 6, 12, 24, 36, 48 and 60 hours. The best depolimerization result was with exposition of lignin to UV by 12 hours since phenylpropanoic structure with higher number of free positions (unoccupied carbons) in C3 and C5 of its aromatic ring was obtained. It is known by Mannich Reaction and determination of phenolic OH by UV analysis. Later, its reactivity was increased by hydroxymethylation process by means of reaction of depolymerizated product with formaldehyde and later with glyoxal since it is less toxic. The modified product was mixed with six different kinds of resins (phenol-formaldehyde, urea-formaldehyde, melamine-formaldehyde, Glyoxal-formaldehyde, urea-formaldehyde and melamine-formaldehyde) to obtain a better mechanical characteristic as a synthetic wood. The best result was the one with melamine-formaldehyde. Finally, this product was mixed with testa rice so final product showed a great hardness and a shinny and smooth appearance.
