The aim of this study is to understand the relationship between the polymerization degree and cememitious activity of iron ore tailings. In light of the poor usage of iron ore tailings, stockpile samples from Tangshan...The aim of this study is to understand the relationship between the polymerization degree and cememitious activity of iron ore tailings. In light of the poor usage of iron ore tailings, stockpile samples from Tangshan were studied in terms of their ability to become cementitious materials. Compound thermal activation was used to improve the cementitious properties of the tailings, while analyzing methods, such as X-ray diffraction (XRD), infrared spectroscopy (IR), nuclear magnetic resonance (NMR), and X-ray photoelectron spectrometer (XPS), were employed to study the changes in phase and structure under different activation conditions. The results reveal clear relationships between the binding energies of Si2p and O 1 s, polymerization degree, and cementitious activity of iron ore tailings.展开更多
To investigate the variation in the degree of polymerization calcium aluminium silicate hydrate(C-A-S-H)gel and its role in the evolution of the strength of waterglass slag binders,the compressive strength,hydration p...To investigate the variation in the degree of polymerization calcium aluminium silicate hydrate(C-A-S-H)gel and its role in the evolution of the strength of waterglass slag binders,the compressive strength,hydration products,degree of hydration of the slag,and the degree of polymerization of C-A-S-H gels of binders were examined.The experimental results indicate that the pH of the pore solution increased with an increase in the Na_(2)O concentration.However,mortar with an optimum compressive strength value of 81.0 MPa at 28 d was obtained when water glass modulus was 1.5.The main hydration product is a C-A-S-H gel for which the quantity and the degree of polymerization depend strongly on the Na_(2)O concentration;for a given range,both increase with increasing Na_(2)O concentration,thus yielding an enhanced strength.A further increase in the Na_(2)O concentration continuously increases the quantity of C-A-S-H gels while drastically reducing the degree of polymerization.The positive effect of the former is counteracted by the adverse effect of the latter,ultimately,leading to a decreased strength.Furthermore,we reveal that the degree of polymerization for C-A-S-H gels may be affected by pH,through a series of complex chemical reactions.展开更多
The polystyrenylphosphonous acid (PSPA) of low polymerization degree was prepared with one step reaction. The reaction mechanism was changed with different initiators. For the reaction with AIBN or BPO as the initia...The polystyrenylphosphonous acid (PSPA) of low polymerization degree was prepared with one step reaction. The reaction mechanism was changed with different initiators. For the reaction with AIBN or BPO as the initiator, there are 2 or 3 series of radical reaction chains and 5 or 9 series of polystyrenyl products. The main products are PSPA without or with the fragment of the initiator H[CH(C6H5)-CH2]n-PO2H2 and C6H5CO2-[CH2CH (C6H5)]n-PO2H2 respectively.展开更多
A novel acrylamide A2B2* (A = alkene, B* = alkyl chlorine) type inimer was obtained from commercially available 1,2-ethylenediamine, chloroacetyl chloride and acryloyl chloride. The as-prepared monomer can form wa...A novel acrylamide A2B2* (A = alkene, B* = alkyl chlorine) type inimer was obtained from commercially available 1,2-ethylenediamine, chloroacetyl chloride and acryloyl chloride. The as-prepared monomer can form water-soluble hyperbranched poly(N,N-ethylidene bis(N-2-chloroacetyl acrylamide))s (HPECA) through atom transfer radical polymerization/self-condensing vinyl polymerization method in the presence alkyl chlorine/CuCl/2,2-bipyridine activation system which can effectively suppress the gelation formation.1H-NMR spectra and dual detector size exclusion chromatography proved the hyperbranched structure indisputably, and the degree of branching was determined by the detailed analyses of 1H-NMR spectra. The trend of the degree of branching was in consistent with the result of Mark- Houwink exponent a. The experiment results suggested that the conversion was 67%, Mw = 13.2 x 104, Mark-Houwink a = 0.282 and the degree of branching = 64% when the reaction temperature was 120 ℃, reaction time = 168 h and N,N- ethylidene bis(N-2-chloroacetyl acrylamide):Cu(I) = 50:0.62.展开更多
In order to study the linkage effects between degree of polymerization and frequency domain dielectric spectroscopy characteristics of oil-paper insulation, the frequency domain dielectric response test platform of oi...In order to study the linkage effects between degree of polymerization and frequency domain dielectric spectroscopy characteristics of oil-paper insulation, the frequency domain dielectric response test platform of oil-paper insulation is set up. Complex permittivity of oil-paper insulation respectively composed by new or aged oil and insulation paper with different DP are tested, and complex permittivity of oil-paper insulation respectively composed by insulation respectively composed by new oil and insulation paper with different DP and low or high moisture content are tested. The test results are analyzed, and the analysis results show that the degree of polymerization of insulation paper has an influence on complex permittivity of oil-paper insulation though influencing the distribution of moisture and acids between oil and paper.展开更多
A kind of graphitic carbon nitride(TSC-550) with high polymerization degree and improved surface property was prepared by a new precursor of thiosemicarbazide. The sulfur motif and high nitrogen content in thiosemicar...A kind of graphitic carbon nitride(TSC-550) with high polymerization degree and improved surface property was prepared by a new precursor of thiosemicarbazide. The sulfur motif and high nitrogen content in thiosemicarbazide promoted the polymerization of thiosemicarbazide to form graphitic carbon nitride framework with high degree of polymerization, which significantly influenced the electronic structure and surface chemical properties. TSC-550 possessed a narrow bandgap of 2.19 eV that facilitated the utilization of visible light, and possessed a less positive charge, acidic surface that resulted in enhanced hydrogen adsorption ability in water solution, which promoted the H;evolution kinetics. In addition, the extended π-conjugated electronic system promoted the separation and migration of photogenerated charge carries in plane of TSC-550 framework, as well as the increasing interlayer C–N interactions in TSC-550 created conductive paths across the layers to tunnel interlayers for rapid electron transportation. As a result, TSC-550 nanosheets showed excellent photocatalytic H;production activity,the AQY achieved 36.4% at 425 nm.展开更多
A series of cellulose 3,5-dimethylphenylcarbamates (CDMPCs) with different degrees of substitution (DS) and degrees of polymerization (DP) were homogeneously synthesized in 1-allyl-3-methylimidazolium chloride ...A series of cellulose 3,5-dimethylphenylcarbamates (CDMPCs) with different degrees of substitution (DS) and degrees of polymerization (DP) were homogeneously synthesized in 1-allyl-3-methylimidazolium chloride (AmimC1). Then, the CDMPCs were coated on silica gel and used as chiral stationary phases (CSPs), and their chiral recognition abilities for seven racemates were evaluated by high performance liquid chromatography. The results showed that DS and DP of CDMPCs had a great influence on chiral recognition abilities of the CSPs. The CSPs with the DS ~ 1 gives a low chiral recognition to most racemates. On the contrast, the CSPs with the DS _〉 2 exhibited high chiral separation abilities. For example, six racemates could be separated on the CSP with CDMPC of DS ~ 2 (CSP-2). Especially, for the enantioseparation of 1-(2-naphthyl) ethanol and Tr6ger's base, CSP-2 gave the highest separation ability in all of CSPs. On the other hand, when the DP of cellulose was in a range from 39 to 220, the chiral separation abilities of CDMPCs increased as the DP increased. This work demonstrates that the structure of cellulose esters such as DS and DP has important effect on their chiral separation ability, and therefore provides a practical method to design and prepare desirable CSPs for different racemates.展开更多
A new method for estimating the degree of [SiO4]4-polymerization of coal gangue is presented. The method uses the relative bridging oxygen number (RBO) based on nuclear magnetic resonance (NMR) techniques. X-ray diffr...A new method for estimating the degree of [SiO4]4-polymerization of coal gangue is presented. The method uses the relative bridging oxygen number (RBO) based on nuclear magnetic resonance (NMR) techniques. X-ray diffraction (XRD) and 29Si NMR techniques have been used to study phase transitions and silicate polymerization of coal gangue calcined at different temperatures or co-calcined. It has been found that phase transition of clay minerals causes silicate polymerization to change with temperature. In this study, cementing activity and RBO were determined to be inversely related. Generally, activated coal gangue with lower RBO had better cementitious activity.展开更多
Due to the structure characteristics of huge macromolecular size and the very low motion feature of the polymer chain which is very difficult to arrange regularly their long chain into the three dimensional space,thus...Due to the structure characteristics of huge macromolecular size and the very low motion feature of the polymer chain which is very difficult to arrange regularly their long chain into the three dimensional space,thus the polymer will incompletely crystallize except for the macroscopic single crystal of polydiacetylene polymerized by means of solid state crystalline polymerization.展开更多
Background:Chitooligosaccharides(COS)with degrees of polymerization(DP)6 to 8 are degraded from chitosan,which possess excellent bioactivities.However,technologies that could purify them from hydrolysis mixtures in th...Background:Chitooligosaccharides(COS)with degrees of polymerization(DP)6 to 8 are degraded from chitosan,which possess excellent bioactivities.However,technologies that could purify them from hydrolysis mixtures in the narrow DP range(984 to 1,306 Da)are absent.The objective of this research is to purify DP 6 to 8 COS by nanofiltration on the basis of appropriate adjustments of the feed condition.Methods:Syrup containing DP 6 to 8 COS at different concentrations(19.0 to 46.7 g/L)was prepared.A commercial membrane(QY-5-NF-1812)negatively charged was applied.Experiments were carried out in full recycle mode,so that the observed COS retentions were investigated at various transmembrane pressures(6.0 to 20.0 bar),temperatures(10℃ to 50℃),and pHs(5.0 to 9.0).Then,the feasibility of separation of DP 6 to 8 COS was further studied by concentration ratio under optimum conditions.Results:The results indicate that the purification of DP 6 to 8 COS by nanofiltration NF is feasible.It was found that the permeate flux was 95.0 L/(m^(2) h)at 10.0 bar,while it reached to 140.0 L/(m^(2) h)at 20.0 bar,and it increased with feed temperature,but the membrane pores were also swelled by heating and led to an irreversible wastage of target oligomers.Additionally,the retention behaviors of chitooligosaccharides are significantly influenced by pH.Conclusions:Although glucosamine and dimer were permeatable at low pH,their retention ratios were remarkably varied from 0.458 to 0.864 when pH was 9.0.With the interaction of hydrogen bonds,structural curling and overlapping of chitooligosaccharides were formed.Consequently,the rejection of chitooligosaccharides at various pHs is variable.Spray-dried products were finally characterized by the matrix-assisted laser desorption/ionization time-of-flight mass spectrum.The spectrum identified the distributions of hexamer,heptamer,and octamer.Combined with high-performance liquid chromatography profiles,the purity and yield of DP 6 to 8 chitooligosaccharides were up to 82.2%and 73.9%,respectively.展开更多
Carrageenans are widely utilized in many commercial applications such as the food and pharmaceutical industry, due to their excellent functional properties. In this study, a sensitive LC-MS/MS method was developed to ...Carrageenans are widely utilized in many commercial applications such as the food and pharmaceutical industry, due to their excellent functional properties. In this study, a sensitive LC-MS/MS method was developed to determine κ-3, κ-5, and κ-7 carrageenan oligosaccharides simultaneously. Optimum MRM transitions for κ-3, κ-5, and κ-7 carrageenan oligosaccharides were(645.079→565.111, [M-H]-),(515.137→474.946, [M-2H]^2-), and(471.484→445, [M-3H]^3-), respectively. Chromatographic separation was performed on an Amide column coupled with a guard column operated at 60℃ under stepwise gradient elution. The linearity of the LC-MS/MS method for κ-3, κ-5, and κ-7 carrageenan oligosaccharides, evaluated over the concentration range of 0.10- 20.0 μmol L^-1, was excellent. The precisions of the method for κ-3, κ-5, and κ-7 carrageenan oligosaccharides were from 0.91% to 9.66%, and the inter-day precisions were from 0.92% to 10.5%. Validation of the LC-MS/MS method indicated that the method was precise and in line with the CFDA guidance. This method has been successfully applied to an in vitro absorption study.展开更多
Based on the expression of the index of coil interpenetration (i.e., the degree of coil overlap, ξb) of amorphous polymers in the bulk state proposed by Qian, the ξb was rewritten as ξb = ρb [η]θ/1.66 via Hory...Based on the expression of the index of coil interpenetration (i.e., the degree of coil overlap, ξb) of amorphous polymers in the bulk state proposed by Qian, the ξb was rewritten as ξb = ρb [η]θ/1.66 via Hory's intrinsic viscosity equation at them conditions. The ξb ofpoly (vinyl chloride) (PVC) dense membranes with different molecular weights and cellulose diacetate (CA) dense membranes prepared using different solvents were determined. The permeability, permeation coefficient (P) of nitrogen and permeation flux (J) of liquid through both membranes, respectively, was measured. P and J decreased exponentially with increasing ξb for PVC and CA membranes were revealed.展开更多
This study analyzes the influence of TiO_(2) and Al_(2)O_(3) contents on the microstructure of CaO-SiO_(2)-MgO-xwt%Al_(2)O_(3)-ywt%TiO_(2)(14≤x≤22,0≤y≤10)blast furnace slag systems based on the change of slag visc...This study analyzes the influence of TiO_(2) and Al_(2)O_(3) contents on the microstructure of CaO-SiO_(2)-MgO-xwt%Al_(2)O_(3)-ywt%TiO_(2)(14≤x≤22,0≤y≤10)blast furnace slag systems based on the change of slag viscosity,Raman spectroscopy,and molecular dynamics.The Raman spectroscopy results indicate that an increase in TiO_(2) content leads to the gradual depolymerization of complex Q_(Si)^(3) Q_(Si)^(2) Q_(Si)^(0) Q_(Si)^(1)silicate structures(and)into simpler structures(and)in the slag.At the same time,the Al-O-Al bonds in the aluminate structures of the slag also depolymerize into simpler Al-O-forms,resulting in a decrease in the degree of polymerization of both silicates and aluminates.In contrast,an increase in Al_(2)O_(3) content generally results in an increased degree of polymerization for the silicates and aluminates.Molecular dynamics simulations of the polymerization and depolymerization processes in the microstructure of the blast fur-nace slag reveal that Si and Al mainly exist in tetrahedral[SiO_(4)]^(4-)and[AlO_(4)]^(4-),while Ti mainly exists in the form of simple pentaco-ordinate[TiO_(5)]^(6-)and hexacoordinate[TiO_(6)]^(8-).TiO_(2) exhibits basic properties in this system,whereas Al_(2)O_(3) demonstrates acidic behavior.The addition of TiO_(2) introduces free oxide ions into the system,causing the bridging oxygens to break into non-bridging oxygens,lead-Q_(Si)^(4) Q_(Si)^(3)ing to the depolymerization of complex structures and,which simplifies the slag structure.On the other hand,an increase in Al_(2)O_(3) content tends to capture or share the oxide ions within the system to form[AlO_(4)]^(4-),resulting in the polymerization of free oxygens into Q_(Si)^(0) Q_(Si)^(1)non-bridging oxygens,which further polymerize into bridging oxygens and lead to the consolidation of simple structures and,resulting in a more complex slag structure.Both Raman spectroscopy analysis and molecular dynamics simulation results indicate that the degree of polymerization of[SiO_(4)]^(4-) and[AlO_(4)]^(4-) in the slag network structure is a crucial factor determining the fluidity of the slag.展开更多
[ Objective ] The paper was to study the factors influencing the synthesis of butyl polyglycosides and its synthesis kineties. [ Method ] In the synthesis process of alkyl polyglycosides by transglyeosidation method, ...[ Objective ] The paper was to study the factors influencing the synthesis of butyl polyglycosides and its synthesis kineties. [ Method ] In the synthesis process of alkyl polyglycosides by transglyeosidation method, p-toluenesulfonie acid and stearie acid were used as composite catalyst, intermediate product butyl polyglycosides was prepared via reactive distillation technology. [ Result ] The suitable preparation conditian of butyl polyglyeasides was as follows: catalyst usage, 1.2 g( p-toluenesulfoni :stearie acid = 6:1 ) ; reaction temperature, 110 ℃ ; the ratio of butanol and glucose, 8: 1. The results showed that the larger the molar ratio of butanol and glucose was,the more the butyl monoside content was, and the less the polymerizatian degree of butyl glyeasides was. The catalyst usage and reaction temperature had little influence on the component of butyl polyglyeesides. With the increase of catalyst usage or reaction temperature,the reaction time was shortened dramatically. The kinetic equation for the synthesis of butyl glueeside was finally obtained as follows: -dCA/dt =0.163 7exp( -1. 968×10^3/RT)CA -0.003 49 exp ( -2.727×10^3/RT) Ce. [ Conclusionl The suitable condition for the preparation of butyl polyglyeasides and its synthesis kinetic equation obtained in the study could provide theoretical basis for the synthesis of long-chain alkyl polyglyeasides.展开更多
The simulation is carried out by employing the method of molecular dynamics with the single chain of konjac glucomannan (KGM) in vacuum as the structural model to discuss the factors that affect the single chain str...The simulation is carried out by employing the method of molecular dynamics with the single chain of konjac glucomannan (KGM) in vacuum as the structural model to discuss the factors that affect the single chain structure, the dynamic structure of the chain and the acting forces that maintain the chain structure. The results show that the shape and stability of the chain are affected by the degree of polymerization. As for the KGM with high degree of polymerization, its chain presents random coiling state and its stability declines. Both before and after deacetylation in the process of dynamic motion, the chain of KGM presents random coiling state with periodic variation of extension and coil and demonstrates favorable flexibility, indicating acetyl is not the main factor that affects the shape of chain, whereas dihedral angle and static actions are respectively the key bonding and nonbonding acting forces that influence the single chain conformations in vacuum.展开更多
基金supported by the National Natural Science Foundation of China (No.50674062)the Key Project of the Ministry of Railway of China (No.2008G031-N)the Postdoctoral Science Foundation (No.20070420354)
文摘The aim of this study is to understand the relationship between the polymerization degree and cememitious activity of iron ore tailings. In light of the poor usage of iron ore tailings, stockpile samples from Tangshan were studied in terms of their ability to become cementitious materials. Compound thermal activation was used to improve the cementitious properties of the tailings, while analyzing methods, such as X-ray diffraction (XRD), infrared spectroscopy (IR), nuclear magnetic resonance (NMR), and X-ray photoelectron spectrometer (XPS), were employed to study the changes in phase and structure under different activation conditions. The results reveal clear relationships between the binding energies of Si2p and O 1 s, polymerization degree, and cementitious activity of iron ore tailings.
基金Funded by the National Natural Science Foundation of China(No.51674161)the Natural Science Foundation of Shandong Province(No.ZR2019BEE075)+1 种基金the Scientific Research Foundation of Shandong University of Science and Technology for Recruited Talents(No.2019RCJJ007)the Young Science and Technology Innovation Program of Shandong Province(No.2020KJD001)。
文摘To investigate the variation in the degree of polymerization calcium aluminium silicate hydrate(C-A-S-H)gel and its role in the evolution of the strength of waterglass slag binders,the compressive strength,hydration products,degree of hydration of the slag,and the degree of polymerization of C-A-S-H gels of binders were examined.The experimental results indicate that the pH of the pore solution increased with an increase in the Na_(2)O concentration.However,mortar with an optimum compressive strength value of 81.0 MPa at 28 d was obtained when water glass modulus was 1.5.The main hydration product is a C-A-S-H gel for which the quantity and the degree of polymerization depend strongly on the Na_(2)O concentration;for a given range,both increase with increasing Na_(2)O concentration,thus yielding an enhanced strength.A further increase in the Na_(2)O concentration continuously increases the quantity of C-A-S-H gels while drastically reducing the degree of polymerization.The positive effect of the former is counteracted by the adverse effect of the latter,ultimately,leading to a decreased strength.Furthermore,we reveal that the degree of polymerization for C-A-S-H gels may be affected by pH,through a series of complex chemical reactions.
文摘The polystyrenylphosphonous acid (PSPA) of low polymerization degree was prepared with one step reaction. The reaction mechanism was changed with different initiators. For the reaction with AIBN or BPO as the initiator, there are 2 or 3 series of radical reaction chains and 5 or 9 series of polystyrenyl products. The main products are PSPA without or with the fragment of the initiator H[CH(C6H5)-CH2]n-PO2H2 and C6H5CO2-[CH2CH (C6H5)]n-PO2H2 respectively.
基金financially supported by National Natural Science Foundation of China (Nos. 20904008 and 21274037)Science and Technology Foundation of Hebei Education Department (grant Nos. 2010015 and 2009307)
文摘A novel acrylamide A2B2* (A = alkene, B* = alkyl chlorine) type inimer was obtained from commercially available 1,2-ethylenediamine, chloroacetyl chloride and acryloyl chloride. The as-prepared monomer can form water-soluble hyperbranched poly(N,N-ethylidene bis(N-2-chloroacetyl acrylamide))s (HPECA) through atom transfer radical polymerization/self-condensing vinyl polymerization method in the presence alkyl chlorine/CuCl/2,2-bipyridine activation system which can effectively suppress the gelation formation.1H-NMR spectra and dual detector size exclusion chromatography proved the hyperbranched structure indisputably, and the degree of branching was determined by the detailed analyses of 1H-NMR spectra. The trend of the degree of branching was in consistent with the result of Mark- Houwink exponent a. The experiment results suggested that the conversion was 67%, Mw = 13.2 x 104, Mark-Houwink a = 0.282 and the degree of branching = 64% when the reaction temperature was 120 ℃, reaction time = 168 h and N,N- ethylidene bis(N-2-chloroacetyl acrylamide):Cu(I) = 50:0.62.
文摘In order to study the linkage effects between degree of polymerization and frequency domain dielectric spectroscopy characteristics of oil-paper insulation, the frequency domain dielectric response test platform of oil-paper insulation is set up. Complex permittivity of oil-paper insulation respectively composed by new or aged oil and insulation paper with different DP are tested, and complex permittivity of oil-paper insulation respectively composed by insulation respectively composed by new oil and insulation paper with different DP and low or high moisture content are tested. The test results are analyzed, and the analysis results show that the degree of polymerization of insulation paper has an influence on complex permittivity of oil-paper insulation though influencing the distribution of moisture and acids between oil and paper.
基金supported by the Basic Science Center Program for Ordered Energy Conversion of the National Natural Science Foundation of China(No.51888103)the National Natural Science Foundation of China(No.51961165103)+1 种基金the National Key Research and Development Project(No.2018YFB1502000)the Youth Innovation Team of Shaanxi Universities
文摘A kind of graphitic carbon nitride(TSC-550) with high polymerization degree and improved surface property was prepared by a new precursor of thiosemicarbazide. The sulfur motif and high nitrogen content in thiosemicarbazide promoted the polymerization of thiosemicarbazide to form graphitic carbon nitride framework with high degree of polymerization, which significantly influenced the electronic structure and surface chemical properties. TSC-550 possessed a narrow bandgap of 2.19 eV that facilitated the utilization of visible light, and possessed a less positive charge, acidic surface that resulted in enhanced hydrogen adsorption ability in water solution, which promoted the H;evolution kinetics. In addition, the extended π-conjugated electronic system promoted the separation and migration of photogenerated charge carries in plane of TSC-550 framework, as well as the increasing interlayer C–N interactions in TSC-550 created conductive paths across the layers to tunnel interlayers for rapid electron transportation. As a result, TSC-550 nanosheets showed excellent photocatalytic H;production activity,the AQY achieved 36.4% at 425 nm.
基金financially supported by the National Natural Science Foundation of China(Nos.5110316721174151 and 51425307)
文摘A series of cellulose 3,5-dimethylphenylcarbamates (CDMPCs) with different degrees of substitution (DS) and degrees of polymerization (DP) were homogeneously synthesized in 1-allyl-3-methylimidazolium chloride (AmimC1). Then, the CDMPCs were coated on silica gel and used as chiral stationary phases (CSPs), and their chiral recognition abilities for seven racemates were evaluated by high performance liquid chromatography. The results showed that DS and DP of CDMPCs had a great influence on chiral recognition abilities of the CSPs. The CSPs with the DS ~ 1 gives a low chiral recognition to most racemates. On the contrast, the CSPs with the DS _〉 2 exhibited high chiral separation abilities. For example, six racemates could be separated on the CSP with CDMPC of DS ~ 2 (CSP-2). Especially, for the enantioseparation of 1-(2-naphthyl) ethanol and Tr6ger's base, CSP-2 gave the highest separation ability in all of CSPs. On the other hand, when the DP of cellulose was in a range from 39 to 220, the chiral separation abilities of CDMPCs increased as the DP increased. This work demonstrates that the structure of cellulose esters such as DS and DP has important effect on their chiral separation ability, and therefore provides a practical method to design and prepare desirable CSPs for different racemates.
基金Project supported by the National Natural Science Foundation of China (No. 50674062)the Key Projects in the National Science & Technology Pillar Program (No. 2006BAC21B03)the Beijing Science and Technology Plan Projects of China (No. D07040300690000)
文摘A new method for estimating the degree of [SiO4]4-polymerization of coal gangue is presented. The method uses the relative bridging oxygen number (RBO) based on nuclear magnetic resonance (NMR) techniques. X-ray diffraction (XRD) and 29Si NMR techniques have been used to study phase transitions and silicate polymerization of coal gangue calcined at different temperatures or co-calcined. It has been found that phase transition of clay minerals causes silicate polymerization to change with temperature. In this study, cementing activity and RBO were determined to be inversely related. Generally, activated coal gangue with lower RBO had better cementitious activity.
文摘Due to the structure characteristics of huge macromolecular size and the very low motion feature of the polymer chain which is very difficult to arrange regularly their long chain into the three dimensional space,thus the polymer will incompletely crystallize except for the macroscopic single crystal of polydiacetylene polymerized by means of solid state crystalline polymerization.
基金financially supported by the National Natural Science Foundation of China(No.31371725 and No.31101381).
文摘Background:Chitooligosaccharides(COS)with degrees of polymerization(DP)6 to 8 are degraded from chitosan,which possess excellent bioactivities.However,technologies that could purify them from hydrolysis mixtures in the narrow DP range(984 to 1,306 Da)are absent.The objective of this research is to purify DP 6 to 8 COS by nanofiltration on the basis of appropriate adjustments of the feed condition.Methods:Syrup containing DP 6 to 8 COS at different concentrations(19.0 to 46.7 g/L)was prepared.A commercial membrane(QY-5-NF-1812)negatively charged was applied.Experiments were carried out in full recycle mode,so that the observed COS retentions were investigated at various transmembrane pressures(6.0 to 20.0 bar),temperatures(10℃ to 50℃),and pHs(5.0 to 9.0).Then,the feasibility of separation of DP 6 to 8 COS was further studied by concentration ratio under optimum conditions.Results:The results indicate that the purification of DP 6 to 8 COS by nanofiltration NF is feasible.It was found that the permeate flux was 95.0 L/(m^(2) h)at 10.0 bar,while it reached to 140.0 L/(m^(2) h)at 20.0 bar,and it increased with feed temperature,but the membrane pores were also swelled by heating and led to an irreversible wastage of target oligomers.Additionally,the retention behaviors of chitooligosaccharides are significantly influenced by pH.Conclusions:Although glucosamine and dimer were permeatable at low pH,their retention ratios were remarkably varied from 0.458 to 0.864 when pH was 9.0.With the interaction of hydrogen bonds,structural curling and overlapping of chitooligosaccharides were formed.Consequently,the rejection of chitooligosaccharides at various pHs is variable.Spray-dried products were finally characterized by the matrix-assisted laser desorption/ionization time-of-flight mass spectrum.The spectrum identified the distributions of hexamer,heptamer,and octamer.Combined with high-performance liquid chromatography profiles,the purity and yield of DP 6 to 8 chitooligosaccharides were up to 82.2%and 73.9%,respectively.
基金supported by the Shandong Provincial Natural Science Foundation,China (No. ZR2019BC025)Open Research Fund Program of Shandong Provincial Key Laboratory of Glycoscience&Glycotechnology (Ocean University of China)the Fundamental Research Funds for the Central Universities (Nos. 201912008,201964019)。
文摘Carrageenans are widely utilized in many commercial applications such as the food and pharmaceutical industry, due to their excellent functional properties. In this study, a sensitive LC-MS/MS method was developed to determine κ-3, κ-5, and κ-7 carrageenan oligosaccharides simultaneously. Optimum MRM transitions for κ-3, κ-5, and κ-7 carrageenan oligosaccharides were(645.079→565.111, [M-H]-),(515.137→474.946, [M-2H]^2-), and(471.484→445, [M-3H]^3-), respectively. Chromatographic separation was performed on an Amide column coupled with a guard column operated at 60℃ under stepwise gradient elution. The linearity of the LC-MS/MS method for κ-3, κ-5, and κ-7 carrageenan oligosaccharides, evaluated over the concentration range of 0.10- 20.0 μmol L^-1, was excellent. The precisions of the method for κ-3, κ-5, and κ-7 carrageenan oligosaccharides were from 0.91% to 9.66%, and the inter-day precisions were from 0.92% to 10.5%. Validation of the LC-MS/MS method indicated that the method was precise and in line with the CFDA guidance. This method has been successfully applied to an in vitro absorption study.
文摘Based on the expression of the index of coil interpenetration (i.e., the degree of coil overlap, ξb) of amorphous polymers in the bulk state proposed by Qian, the ξb was rewritten as ξb = ρb [η]θ/1.66 via Hory's intrinsic viscosity equation at them conditions. The ξb ofpoly (vinyl chloride) (PVC) dense membranes with different molecular weights and cellulose diacetate (CA) dense membranes prepared using different solvents were determined. The permeability, permeation coefficient (P) of nitrogen and permeation flux (J) of liquid through both membranes, respectively, was measured. P and J decreased exponentially with increasing ξb for PVC and CA membranes were revealed.
基金financially supported by the National Natural Science Foundation of China(No.52174299)the State Key Laboratory of Vanadium and Titanium Resources Comprehensive Utilization,China(No.2024P4FZG10).
文摘This study analyzes the influence of TiO_(2) and Al_(2)O_(3) contents on the microstructure of CaO-SiO_(2)-MgO-xwt%Al_(2)O_(3)-ywt%TiO_(2)(14≤x≤22,0≤y≤10)blast furnace slag systems based on the change of slag viscosity,Raman spectroscopy,and molecular dynamics.The Raman spectroscopy results indicate that an increase in TiO_(2) content leads to the gradual depolymerization of complex Q_(Si)^(3) Q_(Si)^(2) Q_(Si)^(0) Q_(Si)^(1)silicate structures(and)into simpler structures(and)in the slag.At the same time,the Al-O-Al bonds in the aluminate structures of the slag also depolymerize into simpler Al-O-forms,resulting in a decrease in the degree of polymerization of both silicates and aluminates.In contrast,an increase in Al_(2)O_(3) content generally results in an increased degree of polymerization for the silicates and aluminates.Molecular dynamics simulations of the polymerization and depolymerization processes in the microstructure of the blast fur-nace slag reveal that Si and Al mainly exist in tetrahedral[SiO_(4)]^(4-)and[AlO_(4)]^(4-),while Ti mainly exists in the form of simple pentaco-ordinate[TiO_(5)]^(6-)and hexacoordinate[TiO_(6)]^(8-).TiO_(2) exhibits basic properties in this system,whereas Al_(2)O_(3) demonstrates acidic behavior.The addition of TiO_(2) introduces free oxide ions into the system,causing the bridging oxygens to break into non-bridging oxygens,lead-Q_(Si)^(4) Q_(Si)^(3)ing to the depolymerization of complex structures and,which simplifies the slag structure.On the other hand,an increase in Al_(2)O_(3) content tends to capture or share the oxide ions within the system to form[AlO_(4)]^(4-),resulting in the polymerization of free oxygens into Q_(Si)^(0) Q_(Si)^(1)non-bridging oxygens,which further polymerize into bridging oxygens and lead to the consolidation of simple structures and,resulting in a more complex slag structure.Both Raman spectroscopy analysis and molecular dynamics simulation results indicate that the degree of polymerization of[SiO_(4)]^(4-) and[AlO_(4)]^(4-) in the slag network structure is a crucial factor determining the fluidity of the slag.
文摘[ Objective ] The paper was to study the factors influencing the synthesis of butyl polyglycosides and its synthesis kineties. [ Method ] In the synthesis process of alkyl polyglycosides by transglyeosidation method, p-toluenesulfonie acid and stearie acid were used as composite catalyst, intermediate product butyl polyglycosides was prepared via reactive distillation technology. [ Result ] The suitable preparation conditian of butyl polyglyeasides was as follows: catalyst usage, 1.2 g( p-toluenesulfoni :stearie acid = 6:1 ) ; reaction temperature, 110 ℃ ; the ratio of butanol and glucose, 8: 1. The results showed that the larger the molar ratio of butanol and glucose was,the more the butyl monoside content was, and the less the polymerizatian degree of butyl glyeasides was. The catalyst usage and reaction temperature had little influence on the component of butyl polyglyeesides. With the increase of catalyst usage or reaction temperature,the reaction time was shortened dramatically. The kinetic equation for the synthesis of butyl glueeside was finally obtained as follows: -dCA/dt =0.163 7exp( -1. 968×10^3/RT)CA -0.003 49 exp ( -2.727×10^3/RT) Ce. [ Conclusionl The suitable condition for the preparation of butyl polyglyeasides and its synthesis kinetic equation obtained in the study could provide theoretical basis for the synthesis of long-chain alkyl polyglyeasides.
基金This work was supported by the National Natural Science Foundation of China (30371009), Science Foundation of Fujian Department of Education (JA03059) and Key Project of Science and Technology of Fujian Province (2003Y008)
文摘The simulation is carried out by employing the method of molecular dynamics with the single chain of konjac glucomannan (KGM) in vacuum as the structural model to discuss the factors that affect the single chain structure, the dynamic structure of the chain and the acting forces that maintain the chain structure. The results show that the shape and stability of the chain are affected by the degree of polymerization. As for the KGM with high degree of polymerization, its chain presents random coiling state and its stability declines. Both before and after deacetylation in the process of dynamic motion, the chain of KGM presents random coiling state with periodic variation of extension and coil and demonstrates favorable flexibility, indicating acetyl is not the main factor that affects the shape of chain, whereas dihedral angle and static actions are respectively the key bonding and nonbonding acting forces that influence the single chain conformations in vacuum.
