己烯雌酚印迹共价有机骨架材料的制备及其性能探究

采用一步法制备己烯雌酚印迹共价骨架材料(MICOFs),将其作为固相萃取填料,结合高效液相色谱法,用于实际样品中己烯雌酚的分离与检测.以己烯雌酚为模板分子,三醛基间苯三酚(Tp)、对苯二胺(Pa-1)为功能单体,通过席夫碱反应合成印迹共价骨架材料.通过傅里叶变换红外光谱(FT-IR)、扫描电镜(SEM)、X-射线粉末衍...     

共价有机骨架材料修饰碳糊电极电化学检测铜离子

利用溶剂热反应合成共价有机骨架材料TpBD-COF，通过扫描电子显微镜和红外光谱表征其形貌和结构。按照一定比例将石墨粉、 TpBD-COF、离子液体(BPPF6)和石蜡油混合研磨，制备COF-2-BPPF6-CPE碳糊电极，采用循环伏安法(CV)和差分脉冲伏安法(DPV)评估修饰电极的电化学性能。在pH 3.50的邻苯二甲酸氢钾缓冲溶液中，Cu²⁺在修饰电极上有灵敏的电流响应。COF修饰碳糊电极对Cu²⁺有更高的峰电流，且峰电流与Cu²⁺浓度在1～200μmol/L呈线性关系(R2=0.9997)，检出限为0.13μmol/L。利用该修饰电极，采用标准加入法对水样中的Cu²⁺进行测定，回收率为100.6%～101.2%，表明其可用于检测水体中的Cu²⁺。     

含低聚醚链共价有机骨架薄膜材料的制备及其离子分离性能

用2,5-二(2-甲氧基-乙氧基)对苯二甲酰肼(BMTH)和1,3,5-三甲氧基-2,4,6-三甲酰基苯(TpOMe)缩聚,基于界面聚合法,在多孔三氧化二铝(AAO)基底上制备出一种二维共价有机骨架(COF)膜TpOMe-BMTH,并研究了所得膜材料对锂、镁离子的分离性能。结果显示,TpOMe-BMTH/AAO膜具有高的结晶性和良好的稳定性,并表现出优异的金属离子选择性,在LiCl(0.1 mol·L^-1)和MgCl₂(0.1 mol·L^-1)组成的二元混合离子体系中,对Li⁺/Mg²⁺的分离因子高达258。基于密度泛函理论的平面波赝势方法计算表明,材料孔道中的富氧低聚醚链对 Li⁺和 Mg²⁺的结合能分别为-282.69和-13.46 kJ·mol^-1,使材料表现出强的亲锂特性,促进了Li⁺沿着COF膜的一维孔道进行吸附扩散,最终实现锂、镁离子的高效分离。     

室温离子液体法合成新型三维共价有机骨架材料

采用室温离子热法合成了一种氟取代的具有五重贯穿金刚石拓扑结构的三维共价有机骨架材料(COFs), 记为JUC-515. 与高温溶剂热法不同的是, 室温离子液体法具有反应温度和压力低、 反应时间短、 操作简单、 无需催化剂和不产生有机蒸汽污染等优势. 制备的材料具有高度结晶性、 较大的孔隙率和良好的CO₂选择性吸附性能.     

形貌可控的共价有机骨架材料的合成与应用

共价有机骨架(COFs)作为一种新型晶体多孔材料,在分离富集、催化、药物释放、光电等领域引起了广泛关注。COFs材料的结晶度和形貌决定了其应用。本文综述了不同形貌COFs材料,如：球形、薄膜状、棒状、管状、纤维状、带状、棒状、辊状、笼状等的合成方法和应用,提出存在的问题及解决办法,并展望其应用前景。     

共价有机骨架材料设计及其在分离领域的应用

共价有机骨架(COFs)材料是由有机小分子单体通过共价键连接形成的结晶多孔聚合物。与传统的线性聚合物不同的是,COFs可以在二维和三维空间上对其骨架结构进行控制,从而合成具有高度有序的刚性多孔结构,并且能够调节骨架的化学和物理性质。这种由COF形成的纳米级孔道和空间为分子存储、释放和分离提供了理想的环境。因此它在能量储存、分离、催化等领域有着广泛的应用前景。本文综述了近年来COFs材料的研究进展,主要包括材料的合成策略及其在分离领域的应用,并对COFs材料未来的发展方向进行了展望。     

共价有机骨架的合成及其在气体吸附存储方面的应用

共价有机骨架(COFs)是一种新型的纳米结构材料,由于其独特的性质而受到人们的广泛关注.COFs的结晶.度高,孔径可调,比表面积大,具有良好的抗氧化性能和独特的分子结构,在能源、环境等方面得到了广泛的应用.COFs材料有较高的应用价值,促使人们不断努力研究其基本性质,并调控其结构和功能来提高性能.通过COFs的可设计性...     

三氯卡班分子印迹共价有机骨架毛细管电色谱开管柱的制备及应用EI北大核心CSCD

以三氯卡班(TCC)为模板分子,1,3,5-三醛基间苯三酚(Tp)为功能单体,通过席夫碱反应制备TCC-TpPa分子印迹开管柱,并对其结构、吸附、分离性能进行表征。结果表明,毛细管柱内壁键合2.0~2.6μm的分子印迹共价有机骨架固定相,柱外吸附容量和印迹因子可达32 mg/g和2.3。以三氯生(TCS)为竞争吸附物,以10%(V/V)乙腈-90%(V/V)磷酸盐为样品溶剂,pH 7.0的20 mmol/L磷酸盐为缓冲溶液,20 kV为分离电压,TCC和TCS的分离度为2.76。以TCC,TCS,4-间氯苯二酚和对氯间二甲基苯酚为目标分析物,评价TCC-TpPa开管柱印迹性能,在最佳条件下,4种物质完全分离。TCC-TpPa分子印迹开管柱可用于实际样品中TCC含量的测定。     

含低聚醚链共价有机骨架薄膜材料的制备及其离子分离性能

用2,5-二(2-甲氧基-乙氧基)对苯二甲酰肼(BMTH)和1,3,5-三甲氧基-2,4,6-三甲酰基苯(TpOMe)缩聚,基于界面聚合法,在多孔三氧化二铝(AAO)基底上制备出一种二维共价有机骨架(COF)膜TpOMe-BMTH,并研究了所得膜材料对锂、镁离子的分离性能。结果显示,TpOMe-BMTH/AAO膜具有高的结晶性和良好的稳定性,并表现出优异的金属离子选择性,在LiCl(0.1 mol·L^-1)和MgCl₂(0.1 mol·L^-1)组成的二元混合离子体系中,对Li⁺/Mg²⁺的分离因子高达258。基于密度泛函理论的平面波赝势方法计算表明,材料孔道中的富氧低聚醚链对 Li⁺和 Mg²⁺的结合能分别为-282.69和-13.46 kJ·mol^-1,使材料表现出强的亲锂特性,促进了Li⁺沿着COF膜的一维孔道进行吸附扩散,最终实现锂、镁离子的高效分离。     

球形氨基功能化共价有机骨架化合物的制备及对全氟化合物的吸附性能考察

全氟化合物(PFCs)是一类环境持久性污染物,对生态系统和人类健康造成了极大威胁。一般环境水体中PFCs含量很低,高性能萃取材料的制备和应用一直是近年来的研究热点。为了有效富集水中的PFCs,本研究通过“两步法”制备出氨基功能化的球形共价有机骨架(COF)材料。首先利用1,4-二醛基-2,5-二乙烯基苯及1,3,5-三(4-氨苯基)苯为构筑基元,通过调控反应条件在室温下合成出粒径均匀的球形乙烯基COF(Vinyl COF)材料;然后以4-氨基苯硫酚为氨基功能化单体,通过巯基-烯基点击反应引入功能化侧基,合成出硫醚桥连芳香胺功能化球形COF材料(COF-NH₂)。该材料具有丰富的氨基,能够与PFCs碳链上的氟基以及羧基发生多重氢键和静电作用,因此可以有效吸附PFCs。本论文探究了COF-NH₂的吸附动力学、等温吸附模型、再生性能以及不同酸度条件下的吸附性能。COF-NH₂微球直径约500 nm,具有较好的热稳定性,可以在较宽的pH范围内有效吸附PFCs;重复再生5次后,吸附效果几乎无影响。该材料在实际环境水体中具有良好的吸...     

一种新型酰胺功能化的共价有机框架用于选择性染料吸附

共价有机框架(covalent organic framework, COF)是一种由轻质元素(C、H、O和N)以共价键的形式连接组成的结晶多孔聚合物,由于其具有规则的孔道、可修饰的骨架以及良好的稳定性而被广泛应用于不同的领域.尤其是将含氮的功能基团连接到COF的骨架中,可以为其吸附特定的染料提供丰富的活性位点.基于此,本工作成功制备了一种酰胺功能化的二维共价有机框架材料(JUC-578),通过一系列的表征证明了该材料具有高的结晶度、均一规整的形貌以及开放的一维介孔孔道.更重要的是,发现JUC-578可以选择性地吸附阳离子染料,并且可以多次循环利用.这主要归因于骨架中的氮作为电子给体与缺电子的染料之间的静电作用以及其他弱相互作用(氢键、偶联作用等).与此同时,JUC-578高的结晶度和有序的孔道也是实现可逆吸附染料非常重要的因素.     

A Two-dimensional Covalent Organic Framework for Iodine Adsorption

Radioactive iodine is a notorious pollutant in gas radioactive nuclear waste due to its radiation hazard, volatility, chemical toxicity, and high mobility. Therefore, developing a material with high efficiency-specific iodine capture is significant. Covalent organic framework(COF) has attracted significant attention as a new crystalline porous organic material. Due to its large specific surface and high chemical stability, it is an excellent alternative to adsorbents. Herein, we report a chemically stable two-dimensional COF(termed JUC-609) with specific adsorption of iodine. Adsorption experiments show that JUC-609 has an excellent iodine adsorption capacity as high as 5.9 g/g under 353 K and normal pressure condition, and iodine adsorption after multiple cycles is still maintained. Our study thus promotes the potential application of COFs in the field of environment-related applications.     

Modulated Synthesis of Self-Standing Covalent Organic Framework Films

The weak interaction of covalent organic framework (COF) nanoparticles makes the preparation of self-standing COF films difficult. Herein, a modulated strategy for the facile synthesis of self-standing COF films with good crystallinity and tunable thickness is reported. As compared with the non-modulated approach, the modulated strategy changes the COF morphology from nanoparticles to nanofibers, enabling the facile preparation of self-standing COF films with improved mechanical properties. The Young's modulus of the self-standing COF film obtained via the modulated strategy could increase by 26 times. Moreover, self-standing LZU-8 film can be used as a membrane for efficient removal of 99 % mercury ions from aqueous solution. Our results open up a new approach to prepare self-standing COF thin films for practical applications.     

共价有机框架材料在吸附领域的研究进展

共价有机框架材料(Covalent Organic Frameworks,COFs)是由有机结构单元通过共价键连接的具有期性结构的多孔化合物。共价有机框架材料具有永久的孔隙、高的比表面积、可调的孔径、易于功能化和高的水热稳定性等优点,广泛应用于许多领域。本文总结了COFs目前主要的合成方法,介绍了COFs在吸附领域的应用和发展。最后,文章指出未来的研究重点是发展更多有机反应和键连方式,合成具有高度稳定性和结晶度、成本低廉的功能性材料。     

Melamine-Doped Covalent Organic Framework Membranes for Enhanced Hydrogen Purification

Covalent organic frameworks (COFs) are promising materials for membrane separation thanks to their adjustable topological structures and surface properties of nanopores. Herein, a melamine (Me)-doped COF membrane was fabricated by chemically doping the melamine monomer into TpPa COF, which is formed by the condensation reaction between the 1,3,5-triformylphloroglucinol (Tp) and p-phenylenediamine (Pa) monomers via interfacial polymerization. The introduction of melamine monomer allows altering both the pore structure and pore surface of the TpPa COF membrane, leading to enhanced hydrogen purification performance. Specifically, the separation factor of H₂/CO₂ gas mixture by using the melamine doped TpPa COF (TpPaMe COF) membrane reaches 12.7, with a hydrogen permeance of 727 GPU, in sharp contrast to the relatively low separation factor and gas permeance of 7.5 and 618 GPU of the undoped TpPa membrane. Besides, the TpPaMe COF membrane shows good running stability, with H₂/CO₂ separation performance well surpasses the Robeson 2008 upper bound.     

A Carboxyl-Functionalized Covalent Organic Framework Synthesized in a Deep Eutectic Solvent for Dye Adsorption

Instead of using organic solvents, a deep eutectic solvent (DES) composed of tetrabutylammonium bromide and imidazole (Bu₄NBr/Im) was employed as a solvent for the first time to synthesize covalent organic frameworks (COFs). Due to the low vapor pressure of the Bu₄NBr/Im-based DES, a new carboxyl-functionalized COF (TpPa-COOH) was synthesized under environmental pressure. The as-synthesized TpPa-COOH has open channels, and the DES can be removed completely from the pores. The dye adsorption performance of TpPa-COOH was examined for three organic dyes with similar molecular sizes: one anionic dye (eosin B, EB) and two cationic dyes (methylene blue, MB and safranine T, ST). TpPa-COOH showed an excellent selective adsorption effect on MB and ST. The electronegative keto form in TpPa-COOH might help to form electrostatic and π–π interactions between the π-stacking frameworks of TpPa-COOH and the positive plane MB and ST molecules. The adsorption isotherms of MB and ST on TpPa-COOH were further investigated in detail, and the equilibrium adsorption was well modeled by using a Langmuir isotherm model. Together with hydrogen bonding, TpPa-COOH showed higher adsorption capacity for ST than for MB (1135 vs. 410 mg g⁻¹). These results could provide a guidance for the green synthesis of adsorbents in removing organic dyes from wastewater.     

共价有机框架材料催化研究进展

共价有机框架材料(COFs)是一类具有高比表面积、高孔隙率、高结晶度的结构多样性多孔材料.由于COFs具有可设计性、易功能化的特点,可通过"自上而下"或者后修饰策略将具有催化活性的官能团或金属颗粒嵌入到材料骨架当中,从而设计出高效催化剂. COFs已逐渐在多相催化及其它催化领域展现出非常大的应用价值.本文综述了COFs作为催化剂载体在多种催化反应中的合成策略与应用,对COFs催化剂的现状进行了总结与展望,同时指出该领域面临的问题与挑战.     

共价有机框架材料应用进展

共价有机框架材料(COFs)由C、H、N、O等轻质元素组成,是一种通过共价键连接的晶型材料。近十年来发展迅速,受到研究人员的密切关注。COFs具有良好的稳定性、低密度、规则有序的孔道结构、结构的可预测性和可设计性等优点,被广泛应用到吸附、催化、储能、生物传感器和荧光识别等重要领域,但其存在合成困难、合成方法有限等问题。文章回顾了COFs材料的发展背景,选取吸附、催化、储能这三个方面的应用进行详细说明,分析COFs材料能被应用到这三个领域的原因,列举最新的研究成果,并阐述了COFs与特定分子结合在不同条件下应用的机理,总结各领域应用的异同,分析在应用中存在的主要问题。最后,对于COFs材料自身以及在应用中存在的问题提出针对性的建议。     

A Porphyrin-Based Covalent Organic Framework for Metal-Free Photocatalytic Aerobic Oxidative Coupling of Amines

Imines are important intermediates in drug synthesis. Photocatalytic aerobic oxidative coupling of amines has been considered as a clean and promising way to produce imines and has attracted great attention. Herein, we designed and synthesized a novel two-dimensional porphyrin-based covalent organic framework (Por-BC-COF) which adopts an AA stacking mode with excellent crystallinity, high Brunauer–Emmett–Teller surface areas (1200 m² g⁻¹), wide light absorption range (200–1300 nm) and good stability in a variety of organic solvents. Por-BC-COF can be used as a metal-free heterogeneous photocatalyst for the photocatalytic oxidation of amines to imines under visible light and red light with a high yield (97 %). This work presents a novel and efficient COF photocatalyst in the application of light-driven organic synthesis.     

A Corrole‐Based Covalent Organic Framework Featuring Desymmetrized Topology

Herein, for the first time, we present the successful synthesis of a novel two‐dimensional corrole‐based covalent organic framework (COF) by reacting the unusual approximately T‐shaped 5,10,15‐tris(p‐aminophenyl)corrole H₃TPAPC with terephthalaldehyde, which adopts desymmetrized hcb topology and consists of a staggered AB stacking structure with elliptical pores. The resultant corrole‐based COF, TPAPC‐COF , exhibits high crystallinity and excellent chemical stability. The combination of extended π‐conjugated backbone and interlayer noncovalent π–π interactions endows TPAPC‐COF with excellent absorption capability in the entire visible‐light and even near‐infrared regions. Moreover, this work suggests the promise of TPAPC‐COF as a new class of photoactive material for efficient singlet‐oxygen generation with potential photodynamic therapy application as demonstrated by in vitro anticancer studies.