Preparation and adsorption properties of macroporous tannin resins

In this paper, a new kind of adsorption resin with multi-phenolic hydroxyl was created by immobilizing black wattle bark tannins to chloromethyl polystyrene resin. Its adsorption capacity to cation dye was tested. With an orthogonal test the optimal conditions of synthesis were determined： the concentration of sodium hydroxide solution 1.0 mol.L^-1; the reaction time is one hour and the mass concentration of tannins 5%. With single factorial experiment the optimal conditions of adsorption were confirmed： a solidified pH of 5.0; an adsorption temperature of 25℃ and a cation dye concentration of 100 mg.L^-1. The adsorption for cation dye can be similar to Langmuir isotherms.

ADSORPTION OF TANNIN ACID ONTO AN AMINATED MACROPOROUS RESIN FROM AQUEOUS SOLUTIONS

A macroporous polymeric adsorbent NG-8 was synthesized with divinylbenzene using conventional suspension polymerization technique. Its aminated product NG-9 was prepared by introducing tertiary amino groups into NG-8 for removal of tannin acid from aqueous solutions. NG-9 could be used directly without a wetting process and had higher adsorption capacity than NG-8, which might be attributed to the enhanced adsorbent-adsorbate interaction due to the tertiary amino groups on the polymeric matrix. The Langmuir equation was successfully employed to describe the adsorption process. The adsorption enthalpy change further validated the uptake of tannin acid on NG-9 to be an enhanced physical adsorption because of the Lewis acid-base interaction. In addition, adsorption kinetic studies testified that the tertiary amino groups on the polymer matrix could decrease the adsorption rate maybe for the hindrance of the tertiary amino groups and water clusters built up.

Tannin–Phenol Formaldehyde Resins As Binders for Cellulosic Fibers: Mechanical Properties

In this study Eucalyptus tannin (T) was isolated from outer bark of Eucalyptus trees;as sodium phenoxide salt and used as extender or copolymer into phenol formaldehyde (PF) resin at five percent (10, 20, 30, 40 and 50)% W/W. Tan-nin-phenol formaldehyde (TPF) and tannin formaldehyde-phenol formaldehyde (TFPF) resins that synthesized in this study were evaluated as adhesive material for cellulosic fibers by study the mechanical properties of the composite sheets .The results show that the substituting of (PF) with tannin at (10 –50)% W/W give resins with mechanical properties comparable or near to those of pure (PF) , where the tensile strength at break (Tb) ranging from 15.15 Mpa to 22.27 Mpa as compared with 17.6 Mpa for pure (PF);while the impact strength properties (Im) of composites sheets increased with increased the (T) percents which were about 5.16 KJ/m2 for (TPF – 10%) and 7.21 KJ/m2 for (TPF - 50%) .On the other hand modification of (T) to tannin formaldehyde resin (TF) appear less performance at the results of this study , this effect probably to low penetration of (TFPF) resins between the small voids of cellulose fibers when soaked it in resin solutions. In general the results of this study indicate that the Eucalyptus tannin can be used for par-tial substitution of (PF) to produce resins with feasible mechanical properties and can be used in some applications of (PF) resins.

大孔树脂纯化香蕉皮缩合单宁的吸附特性分析与工艺优化

为提高香蕉皮缩合单宁提取物纯度,提升其后续研究与利用价值,该研究采用大孔树脂吸附法纯化香蕉皮缩合单宁,通过比较6种大孔树脂的吸附与解吸性能,筛选出最适宜的树脂型号,并从动力学和热力学的角度分析该树脂对香蕉皮缩合单宁的吸附特性,探究其纯化工艺条件。结果表明:HP-20型大孔树脂是纯化香蕉皮缩合单宁的适宜树脂;静态吸附-解吸动力学试验表明HP-20树脂分别在8、5 h内能够完成对香蕉皮缩合单宁的吸附、解吸过程,该吸附过程符合伪二阶动力学方程(R^(2)=0.997 2);Freundlich热力学模型适用于解释树脂与缩合单宁间的相互作用,这是一种发生在多分子层表面的吸附,模型常数K_(F)与温度成正相关,表明升温利于吸附的进行;热力学参数计算结果为ΔG<0,ΔH=5.13 kJ/mol,ΔS=47.28 J/mol·K,进一步证明了该过程是自发的、吸热的过程,且物理吸附占据主导作用,无序性有所增加。较佳的纯化参数是上样浓度为6 mg/mL、上样流速为1.5 mL/min、上样量为200 mL、洗脱液乙醇浓度为70%、洗脱流速为1.5 mL/min、洗脱液用量为120 mL。经该条件纯化后,香蕉皮缩合单宁纯度由5.79%提高到68.44%。说明HP-20树脂和优化参数对香蕉皮缩合单宁的纯化效果良好。

氨基水杨酸改性单宁基树脂的制备及其对Ag(I)的吸附

以杨梅单宁为原料,采用氯代的方法制备得到氯化单宁,再与氨基水杨酸反应得到氨基水杨酸改性单宁,然后经多聚甲醛交联得到氨基水杨酸改性单宁基树脂.采用傅里叶变换红外光谱仪对氨基水杨酸改性单宁基树脂的结构进行表征,并探究了溶液pH值、Ag(I)初始质量浓度、温度、时间等因素对氨基水杨酸改性单宁基树脂吸附性能的影响.结果表明,在温度为318 K、pH值为5.0、吸附时间为7 h、Ag(I)初始质量浓度为260 mg/L时,氨基水杨酸改性单宁基树脂对Ag(I)的最大吸附量可达239.6 mg/g,吸附过程符合Langmuir吸附等温模型和准二级动力学模型.这说明氨基水杨酸改性单宁基树脂具有良好Ag(I)吸附性能.

蕨麻单宁的分离纯化及抗氧化活性研究

采用大孔吸附树脂法和有机溶剂萃取法对蕨麻块根中单宁成分进行分离纯化,并考察不同纯化方法下得到单宁样品对DPPH·和·OH的清除能力。结果表明,大孔树脂纯化蕨麻单宁的最佳工艺条件:选用X-5型大孔树脂,上样流速为1.0 mL/min,上样液浓度为1.01 mg/mL,洗脱液为60%乙醇溶液,洗脱流速为1.5 mL/min。乙酸乙酯萃取物、乙酸乙酯萃余物、大孔树脂纯化物、乙酸乙酯萃取经大孔树脂纯化物和乙酸乙酯萃余经大孔树脂纯化物的纯度分别为36.65%、34.87%、59.72%、81.09%、80.43%。在样品浓度为0.05 mg/mL时,粗提液和上述样品对DPPH·的清除率分别为77.50%、93.01%、82.03%、88.63%、74.21%、79.52%;在样品浓度为0.50 mg/mL时,粗提液和上述样品对·OH的清除率分别为72.09%、60.88%、64.78%、76.55%、58.38%、67.94%。

Phytochemical Screening of Some Medicinal Plants in Al Jouf, KSA

The utilization of ethnobotanical and phytochemical investigations in the discovery of novel medications is beneficial. Screening for phytochemicals is an important step in detecting the bioactive ingredients of medicinal plants which are used in conventional therapy. For the first time, 23 medicinal plants utilized in Saudi Arabian traditional therapy were examined. From August 2020 to July 2021, ethnobotanical fieldwork was conducted. There was some plant species identified, divided into pertinent families. Standard procedures were used to screen these medicinal plants for the occurrence of glycosides, alkaloids, saponins, resins, saponins, tannins, and flavonoids. Among the medicinal plants used, the most common phytochemicals were alkaloids (95.65%), glycosides (86.96%), saponin (82.61%), tannins (73.91%), flavonoids (56.52%), and resin (52.17%). The least widely distributed chemicals, on the other side, were resins. Trigonella foenum-graecum L., Pimpinella anisum L., and Cuminum cyminum L. seeds were shown to contain all six categories of secondary metabolites. The ethnographic importance of these medicinal plants is consistent with the content of secondary metabolites.

单宁树脂在木材工业的应用研究进展

单宁拥有天然的苯酚类结构,可广泛用于树脂胶黏剂的制备。介绍了单宁的资源现状,结构和树脂合成过程中存在的反应,及其在胶合板、刨花板、木材防腐、装饰浸渍纸、结构用集成材、纤维及其他复合材料等木质品生产领域的应用研究进展。概括了单宁树脂产业化应用存在的主要问题及下一步研究重点,对中国单宁在木材工业的有效利用提出了展望。

胶原-单宁树脂的制备及其对水溶液中UO_2^(2+)的吸附特性研究

以天然牛皮为原料,经胃蛋白酶处理制得水解胶原;通过胶原-黑荆树单宁-醛反应制备了胶原-单宁树脂(C-TR)吸附材料,并表征了材料的形貌,测定了材料的比表面积、热变形温度等性质。系统研究了C-TR对水溶液中UO22+的吸附特性。结果表明,C-TR对UO22+有较强的吸附能力。当温度为303K、pH=5.0、UO22+的初始浓度2.5mmol.L-1时,吸附容量达到1.49mmolU/g。升高温度,平衡吸附量增大。pH对吸附容量的影响较大,适宜的pH范围为5.0-6.0。C-TR对UO22+的吸附平衡符合Freundlich方程。吸附动力学可用拟二级速度方程来描述。C-TR对UO22+的吸附基本不受NaCl影响,该吸附材料可望用于海水中铀的富集和分离。

胶原-单宁树脂对水体中Hg(Ⅱ)的吸附特性研究

将胶原与黑荆树单宁反应合成了胶原-单宁树脂(C-TR),系统研究了其对水体中Hg(Ⅱ)的吸附特性。结果表明,C-TR对Hg(Ⅱ)有很强的吸附能力,当温度为303K时对Hg(Ⅱ)的吸附容量可达到3.126mmol·g·1。pH对吸附容量的影响较大,适宜的pH范围为4.0～9.0。C-TR对Hg(Ⅱ)的吸附平衡符合Langmuir方程,升高温度,平衡吸附量增大;吸附动力学可用拟二级速率方程很好地描述。Cl-的存在会影响C-TR对Hg(Ⅱ)的吸附,但即使在Cl·浓度较高的情况下,C-TR对Hg(Ⅱ)仍有较强的吸附能力。Al(ⅡI)、Cu(Ⅱ)、Zn(Ⅱ)、Pb(Ⅱ)和Cd(Ⅱ)几乎不影响C-TR对Hg(Ⅱ)的吸附。本研究表明,C-TR可用于水体中Hg(Ⅱ)的去除。

胶原-单宁树脂对水体中Pb(Ⅱ)的吸附特性研究

牛皮经胃蛋白酶水解后提取胶原,通过胶原-黑荆树单宁-醛反应制备了胶原-单宁树脂(C-TR)吸附材料,并系统研究了其对水体中Pb(Ⅱ)的吸附特性。结果表明,C-TR对Pb(Ⅱ)有较强的吸附能力。当温度为303 K、pH值为4.5、Pb(Ⅱ)溶液(100 mL)的初始浓度为1.0 mmol/L时,C-TR(100 mg)对Pb(Ⅱ)的吸附容量达到0.34 mmol/g。pH值对吸附容量的影响较大,最佳吸附pH值为4.5。C-TR对Pb(Ⅱ)的吸附平衡符合Freundlich方程,温度对吸附平衡影响不大。吸附动力学可用拟二级速率方程来描述。固定床吸附表明,当1.0 mmol/L的Pb(Ⅱ)溶液以30 mL/h的流速流过床层时,流出液的体积约为60 mL时达到穿透点。

单宁-羟甲基糠醇胶黏剂的制备与应用

通过实验室自制羟甲基糠醇与缩合单宁在酸性条件下反应,制备新型生物质热固性单宁-羟甲基糠醇胶黏剂,对其基本理化性能测试和刨花板内结合强度、厚度膨胀率进行检测,通过差示扫描量热法(DSC)对其固化机理进行分析。结果表明:在酸性条件下,羟甲基糠醇能够避免糠醇自缩聚现象发生,其与缩合单宁的反应程度较糠醇高;在pH为2、羟甲基糠醇与单宁质量比为1∶2的条件下的胶黏剂制备刨花板的静曲强度、干状内结合强度、耐水性均优于其他条件制备刨花板。

含植物单宁的功能高分子材料

介绍了含植物单宁功能高分子材料的最新研究工作，尤其对单宁－醛树脂和固化单宁的研究进展、制备方法、性能和应用进行了研究。

单宁热固性塑料的制备及性能研究

以单宁、糠醇、乙二醛、环氧树脂为原料,在实验室条件下共缩聚制备天然单宁-糠醇-乙二醛-环氧树脂硬塑料,通过对其压缩强度、三点弯曲强度、布氏硬度的测试,表征塑料的力学性能,采用扫描电子显微镜观测塑料的微观结构,通过接触角和表面能测试表征塑料的疏水能力,通过差示扫描量热分析表征TFGE树脂的固化性能。结果表明:环氧树脂的加入增加了单宁-糠醇-乙二醛树脂的固化温度,增加了树脂的网状结构,使制备的单宁-糠醇-乙二醛-环氧树脂硬塑料与酚醛塑料相比,具备更高的布氏硬度、抗压强度、弯曲强度和疏水能力。

天然黑荆树皮单宁—糠醇木材胶黏剂的研究

通过天然黑荆树皮单宁与来自玉米及小麦剩余提取物的糠醇在酸性条件下反应,制备出一种新型无污染的热固性生物质木材胶黏剂。通过基质辅助激光解吸电离飞行时间质谱(MALDI-TOF-MS)及傅里叶红外光谱(FT-IR)对树脂的结构进行表征;采用静态热机械性能分析(TMA)对树脂的玻璃转化温度及弹性模量进行表征;通过制备胶合板的胶合强度对树脂的胶合性能进行表征。结果表明:在酸性条件下,糠醇中的羟甲基能够且主要与单宁结构单体A环上的6或8号位上的C连接而缩聚成具有一定粘度的大分子化合物。同时,与基于脲醛树脂改性尿素—甲醛—糠醇树脂相比较,单宁—糠醇树脂具有更高的弹性模量及玻璃转化温度,且基于单宁—糠醇树脂制备胶合板的胶合性能优于尿素—甲醛—糠醇树脂。

云南松树皮单宁树脂砂轮切割片的制备及性能研究

以云南松单宁和糠醇为主要原料,氧化铝颗粒为研磨材料,在实验室条件下制备新型可回收砂轮切割片来替代工业酚醛树脂砂轮切割片。同时对材料的抗压、抗弯性能,布氏硬度及切割性能进行了研究。结果表明:按同一工艺制备的单宁树脂砂轮切割片的抗压、抗弯性能及硬度均高于酚醛树脂砂轮切割片,并且二者的切割性能相似。因此,采用天然可回收云南松单宁树脂砂轮切割片来替代石油产物酚醛树脂砂轮切割是可行的。

大孔树脂对沙枣鞣质的吸附及解吸性能研究

采用7种不同型号的大孔吸附树脂对沙枣中提取的沙枣鞣质进行静态吸附及解吸、动态吸附及解吸试验,以确定纯化沙枣鞣质的最佳大孔吸附树脂。静态吸附试验结果表明,LSA-58、AB-8、X-5和NKA-9型大孔树脂对沙枣鞣质均具有较强的吸附和解吸性能,其中AB-8型大孔树脂对沙枣鞣质的动态吸附率为74.96%,动态解吸率为92.73%。

大孔吸附树脂分离纯化五倍子鞣质

以五倍子鞣质粗提物为原料,通过静态吸附与解吸实验比较NKA-2、NKA-9、HPD100、AB-8、D101、D301、聚酰胺及732八种吸附树脂对五倍子鞣质的吸附与解吸性能,筛选得到最优树脂NKA-2。然后通过动态吸附与解吸的单因素试验和正交试验,优化筛选NKA-2大孔吸附树脂分离纯化五倍子鞣质的工艺技术参数。结果表明,当主要考虑鞣质得率时,最优工艺参数为上样质量浓度5mg/mL、上样流速1BV/h、上样体积6BV、洗脱剂乙醇体积分数80%、洗脱流速1BV/h、洗脱体积4BV,其鞣质得率可达85.37%,纯度可达62.99%;当主要考虑鞣质纯度时,最优参数为上样质量浓度6mg/mL、上样流速2BV/h、上样体积5BV、洗脱剂乙醇体积分数80%、洗脱流速3BV/h、洗脱体积4BV,其鞣质纯度可达76.97%,得率达67.78%。

胶原固化单宁吸附剂的制备及其对Pd^(2+)的吸附特性研究

用牛皮制备水解胶原,通过胶原-单宁-醛反应制备胶原固化单宁吸附剂(TICA),并研究了该吸附材料对Pd2+的吸附特性。实验表明,在pH 3.0~4.0范围内,TICA对Pd2+表现出较强的吸附能力。当温度为30℃,Pd2+初始浓度为1.00 mmol/L时,平衡吸附量可达到0.67 mmol/g。吸附平衡符合Freundlich方程,平衡吸附量随温度的升高而增加。吸附动力学可以用拟二级速度方程来描述,由动力学方程计算得到的平衡吸附量与实测值,误差在3.5%以内。进一步研究表明,NaNO3对TICA吸附Pd2+的影响不明显,而NaCl影响显著。

大孔吸附树脂对地榆中总鞣质的纯化

目的:筛选最佳大孔树脂纯化地榆中总鞣质,研究其最佳工艺条件及参数。方法:以鞣质的吸附量、吸附率和解吸率为考察指标,对8种大孔吸附树脂并进行评价。结果:HPD-400型树脂具有较好的吸附分离性能,最佳工艺条件为:上样液浓度4.54 mg·ml^(-1),吸附流速为4 BV·h^(-1),上柱量为4 BV,以70%的乙醇洗脱,用量为3 BV。通过大孔树脂纯化后,终产品中鞣质的纯度为68.52%。结论:HPD-400型树脂可用于地榆中鞣质的富集纯化。