With the tremendous progress of research in nanoscience,much attention has been paid to the bottom of the“nano world”:scales around one nanometer or even smaller.In order to describe materials at this scale,a new co...With the tremendous progress of research in nanoscience,much attention has been paid to the bottom of the“nano world”:scales around one nanometer or even smaller.In order to describe materials at this scale,a new concept called“sub-nanometric material(SNM)”has emerged(Ni and Wang,2016;Ni et al.,2018).展开更多
Cold caustic extraction has potential applications in the production of dissolving-grade pulps due to its ability to selectively remove hemicellulose from lignocellulosic materials. In this study,we demonstrate the co...Cold caustic extraction has potential applications in the production of dissolving-grade pulps due to its ability to selectively remove hemicellulose from lignocellulosic materials. In this study,we demonstrate the conversion of paper-grade kraft pulp into dissolving pulp by a single-stage cold caustic extraction. Under the extraction conditions of 12 wt% NaOH lye,11% pulp consistency,a temperature of 35℃,and 2 h,a paper-grade softwood kraft pulp was purified to high-grade dissolving pulp with 97. 1% α-cellulose content,1. 2% pentosane content,and narrowed molecular weight distribution. The resulting extraction filtrate was concentrated by nano-filtration to obtain the hemicellulose content of 59. 0 g / L,while the permeate was a clear Na OH solution with 10. 9 wt% concentration. A process configuration was also proposed,integrating this cold caustic extraction process with existing pulp and paper production and multi-purpose utilization of the extraction filtrate.展开更多
Hemicellulose has a wide range of applications,including that as an emulsifier for the food industry and raw material for the synthesis of bioethanol/biochemicals and biodegradable films.Hemicellulose is usually prese...Hemicellulose has a wide range of applications,including that as an emulsifier for the food industry and raw material for the synthesis of bioethanol/biochemicals and biodegradable films.Hemicellulose is usually present as a spent liquor,such as the prehydrolysis liquor of the prehydrolysis kraft dissolving pulp production process and the alkali extraction liquor of the cold caustic extraction of pulp fibers.Due to its dilute nature,hemicellulose needs to be dried for practical utilization,and this is challenging.In this study,cellulose and hemicellulose in a bleached bamboo kraft pulp were separated using an alkali extraction process.Hemicellulose obtained from the extraction liquor was dried by an ammonium carbonate-assisted drying process.The effects of drying time and drying temperature were determined.Structure of the hemicellulose obtained by the ammonium carbonate-assisted drying process was similar to that of original hemicellulose,as revealed by detailed Fourier transform infrared and X-ray diffraction analyses.The novel drying method was more energy efficient and required a shorter drying time than the conventional freeze drying method,and the excellent solubility in alkaline solutions favored the chemical modification of hemicellulose.The dried hemicellulose can be used as a renewable raw material for the preparation of hydrogels and other substances such as bioethanol/biochemicals and biodegradable films.展开更多
Loblolly pine residue prepared with and without zeolite ZSM-5 was pyrolyzed at 600℃ and the pyrolysis oil was hydrogenated using formic acid as a hydrogen source, in the presence of a Ru/activated carbon catalyst. As...Loblolly pine residue prepared with and without zeolite ZSM-5 was pyrolyzed at 600℃ and the pyrolysis oil was hydrogenated using formic acid as a hydrogen source, in the presence of a Ru/activated carbon catalyst. As indicated by the pyrolysis yield, addition of the zeolite ZSM-5 increased the yield of light oil but decreased the yield of heavy oil. The pyrolysis oils were analyzed by 13C-,31P-,19F-nuclear magnetic resonance(NMR), and heteronuclear single quantum coherence or heteronuclear single quantum correlation nuclear magnetic resonance(HSQC-NMR), demonstrating that the zeolite ZSM-5 can efficiently induce decarboxylation reactions and decrease the content of aliphatic hydroxyl groups in the heavy oil by 57%.After hydrogenation of the pyrolysis oil, the aromatic carbon content decreased by 78%, with a significant increase in the aliphatic carbon content.展开更多
Alkyl ketene dimers (AKD) have been used in the papermaking industry as reactive internal sizing agents for more than 30 years. AKD emulsions are normally stabilised by cationic starch. The advantages and disadvantage...Alkyl ketene dimers (AKD) have been used in the papermaking industry as reactive internal sizing agents for more than 30 years. AKD emulsions are normally stabilised by cationic starch. The advantages and disadvantages of the emulsions prepared in this way have been well documented. However, the influence of factors such as electrolytes, polyelectrolytes oligomers and pH on AKD emulsion stability has not been addressed. Polyelectrolyte oligomers often arise as impurities in cationic starch or as by-products during the cationisation of starches. The key objectives of this work have been to use starches purified by dialysis and precipitation to study (a) emulsion stabilising properties, (b) factor affecting emulsion characterisation and (c) the adsorption behaviour on AKD particles.Size exclusion chromatography (SEC) and intrinsic viscosity measurements were performed to evaluate molecular weight and MW distribution of cationic starches. NMR and Elemental analysis were conducted to characterise the degree of substitution (DS), and electrophoresis mobility was used to measure the surface charge characteristics of the emulsion particles. Within the experimental concentration ranges, the amount of the cationic starch adsorbed on the AKD particle surfaces has been shown to increase proportionally with the addition level but a high proportion remained unabsorbed. Molecular weight and charge density of cationic starch have also been observed and shown to be important. The zeta-potential of the emulsion particles was strongly dependent on the concentrations of the electrolytes added as well as pH. Excessive electrolytes and extreme pH conditions tended to reduce the zeta potential of the AKD particles.展开更多
Biofoam products have attracted considerable attention lately because there is a growing demand for green/sustainable products.To this end,various biobased foams have either been developed or are currently in developm...Biofoam products have attracted considerable attention lately because there is a growing demand for green/sustainable products.To this end,various biobased foams have either been developed or are currently in development,e.g.,bio-based polyurethanes(PUs),polylactic acid(PLA),starch,and polyhydroxyalkanotates(PHAs).Indeed,significant progress has been made;however,chal-lenges still persist,for example,biobased foam products have poor processability,inferior com-patibility,thermal and strength properties.In this review,we focus on five biofoam products:namely bio-based PUs,PLA,starch,PHAs,and cellulose biofoam products,along with their prop-erties and performance,as well as their manufacturing processes.Further efforts are still needed to unlock the full potential of these bio-based products and meet the goal of complementing and gradually replacing some of their fossil-based counterparts.Finally,the challenges,as well as arising opportunities of future research directions are discussed.展开更多
Boron(B)and nitrogen(N)co-doped 3D hierarchical micro/meso porous carbon(BNPC)were successfully fabricated from cellulose nanofiber(CNF)/boron nitride nanosheets(BNNS)/zinc-methylimidazolate framework-8(ZIF-8)nanocomp...Boron(B)and nitrogen(N)co-doped 3D hierarchical micro/meso porous carbon(BNPC)were successfully fabricated from cellulose nanofiber(CNF)/boron nitride nanosheets(BNNS)/zinc-methylimidazolate framework-8(ZIF-8)nanocomposites prepared by 2D BNNS,ZIF-8 nanoparticles,and wheat straw based CNFs.Herein,CNF/ZIF-8 acts as versatile skeleton and imparts partial N dopant into porous carbon structure,while the introduced BNNS can help strengthen the hierarchical porous superstructure and endow abundant B/N co-dopants within BNPC matrix.The obtained BNPC electrode possesses a high specific surface area of 505.4 m2/g,high B/N co-doping content,and desirable hydrophilicity.Supercapacitors assembled with BNPC-2(B/N co-doped porous carbon with a CNF/BNNS mass ratio of 1꞉2)electrodes exhibited exceptional electrochemical performance,demonstrating high capacitance stability even after 5000 charge-discharge cycles.The devices exhibited outstanding energy density and power density,as well as the highest specific capacitance of 433.4 F/g at 1.0 A/g,when compared with other similar reports.This study proposes a facile and sustainable strategy for efficiently fabrication of rich B/N co-doped hierarchical micro/meso porous carbon electrodes from agricultural waste biomass for advanced supercapacitor performance.展开更多
Banana/orange composite wine was brewed in the lab by liquid fermentation using angel yeast and lactic acid bacteria as the fermentation strains,and characterized by chemical analyses.It was found that the best ratio ...Banana/orange composite wine was brewed in the lab by liquid fermentation using angel yeast and lactic acid bacteria as the fermentation strains,and characterized by chemical analyses.It was found that the best ratio of banana juice to navel orange juice was 1:2,and the optimum alcohol fermentation parameters were as follows:28~30℃,22%initial sugar content,6%yeast,and 6 days of fermentation to reach an alcohol concentration of 11.63%v/v.The free amino acids in the composite wines were tested by automatic amino acid analyzer,and the flavor components of the composite wine were determined and analyzed by gas chromatography-mass spectrometry(GC-MS).Seven types of trace elements in the composite wine were measured by atomic absorption spectrometry.Results showed that there were 17 free amino acids,and their total concentration was up to 897.6 mg/L.A total of 16 key compounds were identified in the composite wine,11 of which were ester,4 of which were alcohols and 1 of which was acid.Magnesium,iron,copper and manganese elements were relatively rich in the wine,while lead was extremely low.展开更多
Superhydrophobic cellulose-based products have immense potential in many industries where plastics and other polymers with hydrophobic properties are used.Superhydrophobic cellulose-based plastic is inherently biodegr...Superhydrophobic cellulose-based products have immense potential in many industries where plastics and other polymers with hydrophobic properties are used.Superhydrophobic cellulose-based plastic is inherently biodegradable,renewable and non-toxic.Finding a suitable replace-ment of plastics is highly desired since plastics has become an environmental concern.Despite its inherent hydrophilicity,cellulose has unparalleled advantages as a substrate for the produc-tion of superhydrophobic materials which has been widely used in self-cleaning,self-healing,oil and water separation,electromagnetic interference shielding,etc.This review includes a compre-hensive survey of the progress achieved so far in the production of super-hydrophobic materials based on cellulose and fiber networks.The methodologies and applications of superhydrophobic-modified cellulose and fiber networks are emphasized.Overall,presented herein is targeting on summarizing some of the aspects that are critical to advance this evolving field of science which may provide new ideas for the developing and exploring of superhydrophobic and green-based materials.展开更多
基金supported by National Natural Science Foundation of China (No.31770623)Priority Academic Program Development of Jiangsu Higher Education Institutions (No.17KJA530005).
文摘With the tremendous progress of research in nanoscience,much attention has been paid to the bottom of the“nano world”:scales around one nanometer or even smaller.In order to describe materials at this scale,a new concept called“sub-nanometric material(SNM)”has emerged(Ni and Wang,2016;Ni et al.,2018).
基金the financial support from the Canada Research Chairs and NSERC CRD programthe Tianjin Municipal Science and Technology Commission(Grant No.12ZCZDGX01100)
文摘Cold caustic extraction has potential applications in the production of dissolving-grade pulps due to its ability to selectively remove hemicellulose from lignocellulosic materials. In this study,we demonstrate the conversion of paper-grade kraft pulp into dissolving pulp by a single-stage cold caustic extraction. Under the extraction conditions of 12 wt% NaOH lye,11% pulp consistency,a temperature of 35℃,and 2 h,a paper-grade softwood kraft pulp was purified to high-grade dissolving pulp with 97. 1% α-cellulose content,1. 2% pentosane content,and narrowed molecular weight distribution. The resulting extraction filtrate was concentrated by nano-filtration to obtain the hemicellulose content of 59. 0 g / L,while the permeate was a clear Na OH solution with 10. 9 wt% concentration. A process configuration was also proposed,integrating this cold caustic extraction process with existing pulp and paper production and multi-purpose utilization of the extraction filtrate.
基金the National Key Research and Development Program of China(2017YFB0307900,2019YFC1905903)the National Natural Science Foundation of China(31700507)the Major Project on the Integration of Industry-Education-Research of Fujian Provincial Department of Science and Technology(2018H6003).
文摘Hemicellulose has a wide range of applications,including that as an emulsifier for the food industry and raw material for the synthesis of bioethanol/biochemicals and biodegradable films.Hemicellulose is usually present as a spent liquor,such as the prehydrolysis liquor of the prehydrolysis kraft dissolving pulp production process and the alkali extraction liquor of the cold caustic extraction of pulp fibers.Due to its dilute nature,hemicellulose needs to be dried for practical utilization,and this is challenging.In this study,cellulose and hemicellulose in a bleached bamboo kraft pulp were separated using an alkali extraction process.Hemicellulose obtained from the extraction liquor was dried by an ammonium carbonate-assisted drying process.The effects of drying time and drying temperature were determined.Structure of the hemicellulose obtained by the ammonium carbonate-assisted drying process was similar to that of original hemicellulose,as revealed by detailed Fourier transform infrared and X-ray diffraction analyses.The novel drying method was more energy efficient and required a shorter drying time than the conventional freeze drying method,and the excellent solubility in alkaline solutions favored the chemical modification of hemicellulose.The dried hemicellulose can be used as a renewable raw material for the preparation of hydrogels and other substances such as bioethanol/biochemicals and biodegradable films.
基金supported by the US Department of Energy(DOE)(project:DE-EE0003144)the National Key Research and Development Program of China(No.2017YFB0307900)the Foundation of Guangxi Key Laboratory of Clean Pulp&Papermaking and Pollution Control(No.KF201713).
文摘Loblolly pine residue prepared with and without zeolite ZSM-5 was pyrolyzed at 600℃ and the pyrolysis oil was hydrogenated using formic acid as a hydrogen source, in the presence of a Ru/activated carbon catalyst. As indicated by the pyrolysis yield, addition of the zeolite ZSM-5 increased the yield of light oil but decreased the yield of heavy oil. The pyrolysis oils were analyzed by 13C-,31P-,19F-nuclear magnetic resonance(NMR), and heteronuclear single quantum coherence or heteronuclear single quantum correlation nuclear magnetic resonance(HSQC-NMR), demonstrating that the zeolite ZSM-5 can efficiently induce decarboxylation reactions and decrease the content of aliphatic hydroxyl groups in the heavy oil by 57%.After hydrogenation of the pyrolysis oil, the aromatic carbon content decreased by 78%, with a significant increase in the aliphatic carbon content.
文摘Alkyl ketene dimers (AKD) have been used in the papermaking industry as reactive internal sizing agents for more than 30 years. AKD emulsions are normally stabilised by cationic starch. The advantages and disadvantages of the emulsions prepared in this way have been well documented. However, the influence of factors such as electrolytes, polyelectrolytes oligomers and pH on AKD emulsion stability has not been addressed. Polyelectrolyte oligomers often arise as impurities in cationic starch or as by-products during the cationisation of starches. The key objectives of this work have been to use starches purified by dialysis and precipitation to study (a) emulsion stabilising properties, (b) factor affecting emulsion characterisation and (c) the adsorption behaviour on AKD particles.Size exclusion chromatography (SEC) and intrinsic viscosity measurements were performed to evaluate molecular weight and MW distribution of cationic starches. NMR and Elemental analysis were conducted to characterise the degree of substitution (DS), and electrophoresis mobility was used to measure the surface charge characteristics of the emulsion particles. Within the experimental concentration ranges, the amount of the cationic starch adsorbed on the AKD particle surfaces has been shown to increase proportionally with the addition level but a high proportion remained unabsorbed. Molecular weight and charge density of cationic starch have also been observed and shown to be important. The zeta-potential of the emulsion particles was strongly dependent on the concentrations of the electrolytes added as well as pH. Excessive electrolytes and extreme pH conditions tended to reduce the zeta potential of the AKD particles.
基金the financial support from National Key Research and Development Plan(No.2017YFB0307901)the Canada Research Chairs program of the Government of Canada(No.CRC950213262)the Discovery Program of the Natural Sciences and Engineering Research Council of Canada(No.RGPIN-2022-03210).
文摘Biofoam products have attracted considerable attention lately because there is a growing demand for green/sustainable products.To this end,various biobased foams have either been developed or are currently in development,e.g.,bio-based polyurethanes(PUs),polylactic acid(PLA),starch,and polyhydroxyalkanotates(PHAs).Indeed,significant progress has been made;however,chal-lenges still persist,for example,biobased foam products have poor processability,inferior com-patibility,thermal and strength properties.In this review,we focus on five biofoam products:namely bio-based PUs,PLA,starch,PHAs,and cellulose biofoam products,along with their prop-erties and performance,as well as their manufacturing processes.Further efforts are still needed to unlock the full potential of these bio-based products and meet the goal of complementing and gradually replacing some of their fossil-based counterparts.Finally,the challenges,as well as arising opportunities of future research directions are discussed.
基金support from the Natural Science Foundation of China (No.32101470)Foundation of Tianjin Key Laboratory of Pulp&Paper of Tianjin University of Science&Technology (No.202003,No.202106)+3 种基金China Postdoctoral Science Foundation (No.2022M712379,No.2021M692401)National Key Research and Development Plan (No.2022YFC2900031)Foundation of Guangxi Key Laboratory of Clean Pulp&Papermaking and Pollution Control,College of Light Industry and Food Engineering,Guangxi University (No.2021KF37)the support from Zhejiang Jingxing Paper Co.Ltd.,and University of New Brunswick.
文摘Boron(B)and nitrogen(N)co-doped 3D hierarchical micro/meso porous carbon(BNPC)were successfully fabricated from cellulose nanofiber(CNF)/boron nitride nanosheets(BNNS)/zinc-methylimidazolate framework-8(ZIF-8)nanocomposites prepared by 2D BNNS,ZIF-8 nanoparticles,and wheat straw based CNFs.Herein,CNF/ZIF-8 acts as versatile skeleton and imparts partial N dopant into porous carbon structure,while the introduced BNNS can help strengthen the hierarchical porous superstructure and endow abundant B/N co-dopants within BNPC matrix.The obtained BNPC electrode possesses a high specific surface area of 505.4 m2/g,high B/N co-doping content,and desirable hydrophilicity.Supercapacitors assembled with BNPC-2(B/N co-doped porous carbon with a CNF/BNNS mass ratio of 1꞉2)electrodes exhibited exceptional electrochemical performance,demonstrating high capacitance stability even after 5000 charge-discharge cycles.The devices exhibited outstanding energy density and power density,as well as the highest specific capacitance of 433.4 F/g at 1.0 A/g,when compared with other similar reports.This study proposes a facile and sustainable strategy for efficiently fabrication of rich B/N co-doped hierarchical micro/meso porous carbon electrodes from agricultural waste biomass for advanced supercapacitor performance.
基金support from the Open fund of fruit and vegetable processing and storage engineering technology development center of Guangdong College (GrantNo.2015B003).
文摘Banana/orange composite wine was brewed in the lab by liquid fermentation using angel yeast and lactic acid bacteria as the fermentation strains,and characterized by chemical analyses.It was found that the best ratio of banana juice to navel orange juice was 1:2,and the optimum alcohol fermentation parameters were as follows:28~30℃,22%initial sugar content,6%yeast,and 6 days of fermentation to reach an alcohol concentration of 11.63%v/v.The free amino acids in the composite wines were tested by automatic amino acid analyzer,and the flavor components of the composite wine were determined and analyzed by gas chromatography-mass spectrometry(GC-MS).Seven types of trace elements in the composite wine were measured by atomic absorption spectrometry.Results showed that there were 17 free amino acids,and their total concentration was up to 897.6 mg/L.A total of 16 key compounds were identified in the composite wine,11 of which were ester,4 of which were alcohols and 1 of which was acid.Magnesium,iron,copper and manganese elements were relatively rich in the wine,while lead was extremely low.
基金This work is supported by NSERC Canada and funding for the Joint International Research Lab of Lignocellulosic Functional Materials at Nanjing Forestry University.
文摘Superhydrophobic cellulose-based products have immense potential in many industries where plastics and other polymers with hydrophobic properties are used.Superhydrophobic cellulose-based plastic is inherently biodegradable,renewable and non-toxic.Finding a suitable replace-ment of plastics is highly desired since plastics has become an environmental concern.Despite its inherent hydrophilicity,cellulose has unparalleled advantages as a substrate for the produc-tion of superhydrophobic materials which has been widely used in self-cleaning,self-healing,oil and water separation,electromagnetic interference shielding,etc.This review includes a compre-hensive survey of the progress achieved so far in the production of super-hydrophobic materials based on cellulose and fiber networks.The methodologies and applications of superhydrophobic-modified cellulose and fiber networks are emphasized.Overall,presented herein is targeting on summarizing some of the aspects that are critical to advance this evolving field of science which may provide new ideas for the developing and exploring of superhydrophobic and green-based materials.
