聚（对乙烯基苄基脲）大孔吸附树脂对银杏叶黄酮的吸附性能

通过静态吸附平衡和动态柱吸附试验,研究了自制大孔交联聚（对乙烯基苄基脲）树脂（简称PMVBU树脂）对银杏叶黄酮的吸附性能．结果表明,在pH=5．00时,该树脂对银杏叶黄酮有较好的吸附性能;PMVBU树脂对黄酮的吸附等温线符合Langmuir吸附等温方程,相关系数R^2〉0．99．308K时,PMVBU干树脂对黄酮的静态饱和吸附量达293．3mg／g．298K时,干树脂的动态吸附穿透容量为180mg／g．用75％的乙醇溶液对吸附在PMVBU树脂上的黄酮可进行有效洗脱．银杏叶提取液经过该树脂吸附柱吸附纯化后,黄酮纯度提高了18．6％,且树脂具有良好的重复使用性．     

大孔交联酰胺类聚合物对苯酚氢键吸附机理的研究

大孔交联酰胺类聚合物是一类同时能提供氢键的给体(—NH—)和氢键的受体(—C O)的功能高分子材料。将D392乙酰化制得大孔交联聚(N-对乙烯基苄基乙酰胺)(PS-CH2NHCOCH3),并对其化学结构进行表征;测定了它在非水体系中对苯酚的吸附等温线,计算出不同吸附量时对应的吸附焓。结果表明,合成的大孔交联PS-CH2NHCOCH3在环己烷中对苯酚的吸附量大,吸附选择性高,排除了吸附过程的疏水作用及范德华力的影响因素,证明其吸附机理为氢键吸附。     

聚(对乙烯基苄基己内酰胺)树脂对非水体系中苯酚的吸附热力学

测定了聚（对乙烯基苄基己内酰胺）吸附树脂对正庚烷溶液中苯酚的吸附等温线,发现吸附等温线符合Freundlich等温吸附方程,相关系数大于0．99．根据热力学函数关系计算了等量吸附焓、Gibbs吸附自由能和吸附熵,等量吸附焓在30～40kJ／mol之间,推测吸附过程为氢键吸附．通过比较树脂对正庚烷中苯酚和邻硝基苯酚的吸附性能的差别,进一步论证了树脂对非水体系中酚类物质的吸附是基于氢键作用的机理．同时,聚（对乙烯基苄基己内酰胺）树脂对正庚烷溶液中苯酚的吸附相对水溶液中苯酚的吸附有更低的吸附焓变、吸附自由能变和吸附熵变．     

聚(N-对乙烯基苄基二甲胺)树脂对苯酚的吸附性能

采用二甲胺为功能化试剂,化学修饰氯甲基化苯乙烯-二乙烯基苯共聚物合成了大孔交联聚(N-对乙烯基苄基二甲胺)树脂,测得树脂的氯含量由4.2mmol/g降低到0.24mmol/g,树脂的弱碱交换量为4.0mmol/g,说明氯甲基化苯乙烯-二乙烯基苯共聚物发生胺化反应完全。在水溶液中,测定了大孔交联聚(N-对乙烯基苄基二甲胺)树脂对苯酚的吸附等温线,发现吸附平衡数据符合Freundlich等温吸附方程,相关系数大于0.99。计算得到在吸附量为15、20和25mg/g时,等量吸附焓在-20.81~-30.74kJ/mol范围内,吸附自由能和吸附熵均小于0,说明吸附过程中存在氢键作用,吸附是自发、混乱度变小的过程。比较树脂对水溶液中苯酚、对硝基苯酚和对硝基甲苯的吸附性能以及树脂对水、环己烷、乙醇和乙酸乙酯溶液中苯酚的吸附性能,进一步说明大孔交联聚(N-对乙烯基苄基二甲胺)树脂对水溶液中苯酚的吸附是基于疏水作用和氢键作用协同的机理。     

大孔吸附树脂对湖南黑茶茶多酚的吸附热力学和动力学研究

以湖南黑茶为原料,采用超声法提取湖南黑茶中茶多酚,后通过静态吸附和解吸实验,对5种大孔吸附树脂进行筛选,研究大孔吸附树脂对湖南黑茶茶多酚的吸附热力学和动力学。结果表明,大孔吸附树脂D-101对湖南黑茶茶多酚有较大的吸附量、较强的解吸能力。大孔吸附树脂D-101对黑茶茶多酚的吸附符合Freundlich等温吸附方程;且ΔH0、ΔG0、ΔS0,表明黑茶茶多酚在大孔吸附树脂D-101上的吸附属于可自发进行的物理吸附,吸附过程为放热、熵减过程。吸附动力学研究结果表明,准二级动力学方程的计算值与实验值吻合较好,适合描述大孔吸附树脂D-101对黑茶茶多酚的吸附过程。     

大孔树脂吸附分离速溶茶副产品中茶多酚的研究

通过静态试验比较了不同树脂对速溶茶副产品中茶多酚的吸附和解析特性,筛选出对茶多酚有较好的吸附率和解析率的NKA-9型树脂。动态试验确定了最佳的吸附和解析参数:上样流速为0.8mL/min、上样液温度为60℃、pH为5,洗脱流速为0.9mL/min、乙醇浓度为80%、洗脱剂用量为3BV。经过NKA-9纯化后速溶茶副产品中茶多酚含量达到58.7%,得率为14%。     

树脂对茶多酚与咖啡因的吸附分离

从低档绿茶末的水提取液中，利用离子交换，吸附树脂成功地分离出茶多酚与咖啡因，并详细考察了其交换与吸附性能。与其它方法相比，该树脂法具有产品收率高，成本低廉等特点。     

大孔吸附树脂对葡萄籽原花青素的吸附研究

对8种大孔吸附树脂对葡萄籽原花青素的吸附洗脱性能进行了筛选实验，并选择其中几种树脂研究其对葡萄籽原花青素的吸附特性及机理，发现NKA树脂是比较好的吸附剂。     

大孔吸附树脂对熊果酸吸附性能的研究

研究了从山楂叶中纯化熊果酸的柱层析工艺。静态吸附结果表明,X-5、NKA和AB-8树脂的吸附率分别为91.32%,72.28%和41.19%;以90%乙醇为洗脱剂,X-5、NKA和AB-8树脂的洗脱率分别为83%,70%,87%。静态实验表明X-5树脂具有较好的吸附解吸性能。动态实验优化了在X-5树脂中的流速、上样液的熊果酸浓度和上样体积。结果表明,流速为3BV/h(BV为倍量体积),上样液的熊果酸浓度为0.304mg/mL,上样体积为3BV为最优上样条件。动态洗脱中采用梯度洗脱方式,结果表明在90%的乙醇洗脱下,熊果酸纯度达93.21%。对层析工艺制备的熊果酸进行结晶处理,所获得的熊果酸纯度为98.61%,与熊果酸标准品的红外光谱一致。     

用大孔氨甲基聚苯乙烯树脂选择性吸附分离茶多酚和咖啡因

3种市售树脂ADS-5、ADS-8和ADS-17对茶多酚和咖啡因的混合物水溶液的吸附表明,具有弱极性的ADS-8对茶多酚的吸附量最大.随着树脂极性的增加(ADS-5＜ADS-8＜ADS-17),从混合物中对茶多酚的选择性吸附作用增加,表明对茶多酚的吸附可能包含疏水作用和氢键,而对咖啡因的吸附为疏水作用.在此基础上,合成了不同交联度(8%～26%DVB)的大孔氨甲基聚苯乙烯树脂,这些树脂具有疏水基质和可与酚类化合物形成较强氢键的氨基.对茶多酚和咖啡因的混合物溶液的吸附表明,这些树脂对茶多酚具有高吸附量和高吸附选择性.交联度为10%的大孔氨甲基聚苯乙烯树脂对茶多酚具有最大的吸附量,交联度为22%的大孔氨甲基聚苯乙烯树脂对茶多酚具有最大的吸附选择性.     

大孔PNaA树脂对黄连素的吸附性能研究

将大孔D151树脂(聚丙烯酸树脂)用NaOH淋洗转化为大孔PNaA树脂(聚丙烯酸钠树脂),研究大孔PNaA树脂对黄连素的吸附性能。测定了PNaA树脂的持水量、弱碱交换量;比较PNaA树脂和X-5树脂、H103树脂、AB-8树脂、XAD-4树脂等吸附树脂对黄连素吸附量的大小;测定了PNaA树脂对黄连素在不同温度下的吸附等温线,利用热力学函数关系计算出了吸附焓、自由能和熵;测定了PNaA树脂对黄连素的吸附动力学;测定了PNaA树脂上黄连素在不同溶剂中的静态解吸率。实验表明:PNaA树脂对黄连素的吸附量明显大于X-5树脂、H103树脂、AB-8树脂、XAD-4树脂等吸附树脂对黄连素的吸附量;PNaA树脂对黄连素的吸附为放热、自发的过程;PNaA树脂对黄连素的吸附动力学数据符合一级吸附速率方程,颗粒内扩散是吸附速率的主要控制步骤,吸附动力学可采用HSDM模型加以描述;PNaA树脂上黄连素在0.1%NaCl和80%乙醇的混合溶液中静态解吸率为93.43%,解吸效果好。     

Separation of capsaicin from capsaicinoids by macroporous resin adsorption chromatography

The aim of present study is to develop an efficient and low‐cost method for capsaicin production isolated from capsaicinoids by macroporous resin adsorption chromatography. HZ816 resin has shown the best adsorption and desorption capacities for capsaicin among other resins. To optimize the operating parameters for separation, initial concentration, diameter‐to‐height ratio, mobile phase ratio, and crystallization method were investigated. When capsaicinoids solution (5 g/L) was loaded onto the column (diameter‐to‐height ratio = 1:12) with ethanol/1% w/w NaOH (4:6, v/v) as the mobile phase, capsaicin was purified most effectively. By using acid neutralization as the crystallization method, the purity of capsaicin improved from 90.3 to 99.5% with 82.3% yield. In conclusion, this study provides a simple and low‐cost method for the industrial‐scale production of high‐purity capsaicin.     

大孔硫脲螯合树脂吸附银的研究

本文研究了大孔硫脲螯合树脂对银(I)的吸附行为.结果表明:硫脲树脂对银离子的吸附在pH5.0 的HNO3-柠檬酸钠介质中最佳,静态饱和吸附容量为402mg·g-1树脂,用5～10%硫脲-1.0mol·L-1HCl溶液作解吸剂,二次累计解吸率达到92%;等温吸附服从Freundlich经验式;表观吸附速率常数k298=1.64×10-5s-1;吸附反应的△H=41.6kJ·mol-1;吸附物中树脂功能基与Ag(I)的配位比约为1∶ 1.     

大孔吸附树脂对天麻素的吸附与分离特性的研究

研究了AB 8、NKA 9和S 83种大孔吸附树脂对中药天麻提取液中有效成分天麻素的吸附与分离特性。结果表明,NKA 9和S 8树脂对天麻素具有较好的吸附和解吸特性。其中经NKA-9树脂纯化的天麻素纯度为16.4%,比粗提物的天麻素纯度提高了1倍多。     

大孔树脂吸附黄酒中活性肽的研究

本文采用大孔树脂分离黄酒中的活性多肽,对5种大孔吸附树脂进行了筛选,并对筛选出的DA201-C树脂的吸附解吸条件进行了探究。结果表明:DA201-C具有最佳的吸附率和解吸率,并且在25℃能很好的符合langmuir等温吸附式和Freundlich方程。在上样浓度为3.2mg/mL,洗脱剂为70%乙醇,洗脱流速为1BV/h时,能达到最佳的分离效果,多肽的含量达到66.7%,纯化倍数为9.8。     

Highly selective separation and purification of chicoric acid from Echinacea purpurea by quality control methods in macroporous adsorption resin column chromatography

Chicoric acid is the main phenolic active ingredient in Echinacea purpurea (Asteraceae), best known for its immune‐enhancing ability, as well as used as a herbal medicine. To achieve further utilization of medicinal ingredients from E. purpurea, an efficient preparative separation of chicoric acid was developed based on macroporous adsorption resin chromatography. The separation characteristics of several different typical macroporous adsorption resins were evaluated by adsorption/desorption column experiments, and HPD100 was revealed as the optimal one, which exhibited that the adsorbents fitted well to the pseudo‐second‐order kinetics model and Langmuir isotherm model, and the optimal process parameters were obtained. The breakthrough curves could be predicted and end‐point could be determined early. Besides, the optimal elution conditions of chicoric acid can be achieved using the quality control methods. As a result, the purity of chicoric acid was increased 15.8‐fold (from 4 to 63%) after the treatment with HPD100. The process of the enrichment and separation of chicoric acid is considerate, because of its high efficiency and simple operation. The established separation and purification method of chicoric acid is expected to be valuable for further utilization of E. purpurea according to product application in pharmaceutical fields in the future.     

Degradation study of carbamide cellulose-based macroporous resin

Degradation of macroporous resin of TDI cross-linked cellulose named TCC prepared by crosslinking cellulose with TDI was investigated. The life span for 70 % weight loss, which was estimated based on the changes in dynamic parameters obtained from thermogravimetric analysis, was 74,507 h. Three bacteria including Trametes gallic, Gloeophyllum trabeum, Aspergillus, which were separated and purified from nature, were used to decompose macroporous resin solely or in combination. The life span was reduced to 720 h when combination of Trametes gallic, Gloeophyllum trabeum, Aspergillus was used to decompose TCC at 25 °C, relative humidity of 70 % and pH = 5. Also, the influence of carbon content, nitrogen content and pH value on the biodegradation rate of TCC was discussed. Degradation rate of TCC was highest when mass ratio of glucose to TCC was 0.04, mass ratio of nitrogen to TCC was 0.04 and pH value was 5.     

Study of amino ligands fixation to macroporous supports and their influence on albumin adsorption

Heterogeneous networks of ethylene glycol dimethacrylate and 2‐hydroxyethyl methacrylate [poly(EGDMA‐co‐HEMA)] were synthesized by suspension polymerization using different EGDMA contents and agitation speeds. The networks were actived with epichlorhydrine (Ech) or 1,4‐butanediol diglycidyl ether (BDGE), and then hexamethylenediamine (HMDA) or ethylenediamine (EDA) were conjugated to the support by coupling reaction. Here, a higher alkyldiamine concentration and temperature, and a longer reaction time led to higher yields. Amino ligands of the support III were used to analyze their adsorption performance of bovine serum albumin (BSA) from the adsorption kinetic. A more external location of HMDA amino ligands into network led to get the maximum adsorption in a time shorter than that with EDA. Due to its bigger size, the HMDA molecule was attached mostly to the network surface between larger pores, which favored a faster protein adsorption. When derivatives containing BDGE were compared, the EDA ligand displayed a BSA retention higher than that with HMDA, because a shorter separation between the ammonium groups along the spacer arm yielded a stronger electrostatic attraction on the protein. Clearly, the balance obtained between the pores system and the reagents molecular structure used in the formation of Ech‐HMDA generated the most efficient BSA adsorption. © 2009 Wiley Periodicals, Inc. J Polym Sci Part A: Polym Chem, 2009     

Sulphonated macroporous resin catalysts: Studies on the dehydration of 2-butanol

Sulphonated styrene-divinylbenzene resins with various cross-linking have been synthesized and the dehydration of 2-butanol has been studied on these acid catalysts. The pore structure of the resin controls the rate of dehydration. Thecis totrans ratio of the 2-butene formed indicate that the resin catalysts behave like aqueous solution of acids, i.e.dissociated protons are responsible for catalysis.