High-performance ZIF-8 membranes:preparation and their uranium adsorption performance

In this study,the ZIF-8 membrane(ZIF-8/PP-g-MAH)is prepared by in situ synthesis of ZIF-8 on irradiation-pretreated polymer substrates to improve the uranium adsorption performance and address the recycling problems of ZIF-8 powder.The effects of pH,contact time,and uranium concentration on the adsorption of ZIF-8/PP-g-MAH were investigated.Adsorption isotherm and kinetics analysis show that ZIF-8/PP-g-MAH has a high adsorption capacity of 478.5 mg/g,which is 1.26 times higher than that of ZIF-8,and a rapid adsorption equilibrium of 120 min,which is shortened to one-third of that required for ZIF-8(360 min).The adsorption process of ZIF-8/PP-g-MAH is consistent with that of the Langmuir isotherm and pseudo-second-order dynamic model.ZIF-8/PP-g-MAH also exhibits good selectivity for uranium in simulated seawater.The high adsorption performance of ZIF-8/PP-g-MAH is attributed to its membrane structure,which improves the utilization of coordination sites,including Zn-OH,C-N,and C=N.This study provides an efficient adsorption material for rapid uranium extraction,thus promoting the development of uranium extraction technologies.

Fabrication of ZIF-8 membranes on dual-layer ZnO-PES/PES organic hollow fibers by in-situ crystallization

Compared to inorganic supports, polymeric supports can offer additional benefits, e.g., easier processing and cheaper. However, the organic surface has weak adhesion to the zeolitic imidazolate frameworks(ZIFs) membrane layer, which usually requires complex surface modification or seeding. Herein, we demonstrate that a dual-layer asymmetric polymer support prepared by a simple spinning process is a good candidate for the preparation of ZIF-8 membrane. The inner layer of the support is an organic hollow fiber(PES) with finger-like pores, and the outer layer is a ZnO-PES composite layer with finger-like pores also. The ZnO-PES composite layer is expected to contain uniform ZnO crystals in the polymer matrix, i.e., the ZnO particles in the skin layer of the support are not easy to fall off. Under the induction of ZnO particles in the outer layers, continuous ZIF-8 membranes can be prepared by single in-situ crystallization, showing good adhesion to the supports. The obtained ZIF-8 membranes show a H_(2) permeance of 8.7 × 10^(-8)mol·m^(-2)·s^(-1)·Pa^(-1) with a H_(2)/N_(2) ideal separation selectivity of 18.0. The design and preparation of this dual-layer polymer support is expected to promote the large-scale application of MOF membranes on polymer supports.

PDMS/ZIF-8 coating polymeric hollow fiber substrate for alcohol permselective pervaporation membranes

In order to develop high performance composite membranes for alcohol permselective pervaporation(PV),poly(dimethylsiloxane)/ZIF-8(PDMS/ZIF-8)coated polymeric hollow fiber membranes were studied in this research.First,PDMS was used for the active layer,and Torlon?,PVDF,Ultem?,and Matrimid?with different porosity were used as support layer for fabrication of hollow fiber composite membranes.The performance of the membranes varied with different hollow fiber substrates was investigated.Pure gas permeance of the hollow fiber was tested to investigate the pore size of all fibers.The effect of support layer on the mass transfer in hydrophobic PV composite membrane was investigated.The results show that proper porosity and pore diameter of the support are demanded to minimize the Knudsen effect.Based on the result,ZIF-8 was introduced to prepare more selective separation layer,in order to improve the PV performance.The PDMS/ZIF-8/Torlon?membrane had a separation factor of 8.9 and a total flux of 847 g·m-2·h-1.This hollow fiber PDMS/ZIF-8/Torlon?composite membrane has a great potential in the industrial application.

Photogated proton conductivity of ZIF-8 membranes co-modified with graphene quantum dots and polystyrene sulfonate

Smart proton conductive metal-organic framework(MOF) membranes with dynamic remote control over proton conduction show high potential for use in advanced applications, such as sensors and bioprocesses. Here, we report a photoswitchable proton conductive ZIF-8 membrane by coencapsulating polystyrene sulfonate and graphene quantum dots into a ZIF-8 matrix(GQDs-PSS@ZIF-8) via a solidconfined conversion process. The proton conductivity of the GQDs-PSS@ZIF-8 membrane is 6.3 times higher than that of pristine ZIF-8 and can be reversibly switched by light due to photoluminescence quenching and the photothermal conversion effect, which converts light into heat. The local increase in temperature allows water molecules to escape from the porous channels, which cuts off the proton transport pathways and results in a decrease in proton conductivity. The proton conductivity is restored when the light is off owing to regaining water molecules, which act as proton carriers, from the surroundings. The GQDs-PSS@ZIF-8 membrane responds efficiently to light and exhibits an ON/OFF ratio of 12.8. This photogated proton conduction in MOFs has potential for the development and application of MOF-based protonic solids in advanced photoelectric devices.

Layer-by-layer growth of ZIF-8 on electrospun carbon nanofiber membranes for high-performance supercapacistor electrode

In the past few decades, supercapacitor(SC) has attracted great attention due to its significant advantages over traditional rechargeable battery systems, such as high power density, fast charge-discharge rate, long cycle life and environmental friendliness [1]. Up to now, supercapacitors have been widely used in backup power, electric vehicles, mobile power and so on [2,3].

聚乙烯醇/ZIF-8复合膜的制备及吸附性能

通过溶液流延法制备了聚乙烯醇/ZIF-8复合膜,采用SEM、FT-IR、XRD、TGA、BET等对聚乙烯醇/ZIF-8复合膜进行表征,并探究了复合膜的水稳定性、机械性能,以及对刚果红(CR)的吸附性能。结果表明:聚乙烯醇与ZIF-8材料复合后能改善聚乙烯醇的热稳定性,增加膜表面粗糙度;吸附过程以化学吸附为主,通过内部扩散控制吸附速率,符合准二级吸附动力学模型和Langmuir吸附曲线;ZIF-8质量分数为10%时制备的聚乙烯醇/ZIF-8复合膜,在温度20℃、刚果红溶液质量浓度95 mg/L时,对刚果红的最大吸附量达159.63 mg/g,使用4次后仍能保持93%的吸附效率。

ZIF-8改性自具微孔聚合物膜的制备及其对CO_(2)的分离性能

为了提高自具微孔聚合物(PIMs)膜对CO_(2)的分离效果,对PIM-1膜进行功能化改性。首先,将PIM-1膜通过水解、置换等作用引入Zn2+离子,再将改性后的PIM-1膜浸泡在2-甲基咪唑的甲醇溶液中,于室温下在膜表面生长类沸石咪唑酯框架-8(ZIF-8)选择层,经过硅橡胶填补后得到无缺陷ZIF-8改性PIM-1膜(pZIF-8@PIM-1),并对其性能和结构进行测试和表征。结果表明:在离子改性后的PIM-1膜表面成功生长了厚度约0.8μm的ZIF-8选择层,晶体尺寸大小均匀,粒径直径在200 nm左右;与PIM-1纯膜相比,由于多价金属离子交联及ZIF-8选择层的存在,pZIF-8@PIM-1的CO_(2)扩散系数明显下降,CO_(2)/N_(2)扩散选择性有所上升,由0.89提升到1.01;ZIF-8中含氮有机杂环与CO_(2)之间的Lewis酸碱作用及2-甲基咪唑环上静电势对CO_(2)的亲和作用,使得pZIF-8@PIM-1的CO_(2)溶解度系数上升,且CO_(2)/N_(2)溶解选择性也得到提升,由18.56提升到20.31;改性后的PIM-1膜CO_(2)/N_(2)扩散选择性及CO_(2)/N_(2)溶解度选择性的双重提升共同促进了CO_(2)/N_(2)分离系数的提升,由原膜的16.57增加到20.43,具有良好的CO_(2)分离性能。

ZIF-8@TiO_(2)复合材料的制备及光催化性能

本研究采用水热法制备了一种新型的高效光催化微米复合材料ZIF-8@TiO_(2),并比较了ZIF-8、TiO_(2)纳米球和ZIF-8@TiO_(2)光催化降解罗丹明B的能力。通过扫描电子显微镜(SEM)、X射线衍射(XRD)仪、X射线光电子能谱(XPS)仪、紫外-可见漫反射光谱(DRS)仪、傅里叶变换红外光谱(FTIR)仪和比表面积测量(BET)仪对合成的材料进行了表征。结果表明,TiO_(2)纳米球在ZIF-8表面均匀生长,ZIF-8和TiO_(2)通过化学键连接在一起。ZIF-8和TiO_(2)的协同作用大大增强了复合光催化剂的催化能力。其中ZIF-8@TiO_(2)复合材料的ZIF-8为电荷分离器中光生电子转移提供了一种新的方式,以降低电荷复合率。由于该混合物结合了ZIF-8和TiO_(2)的优点,ZIF-8@TiO_(2)显示出优异的光催化降解罗丹明B的能力。同时讨论了复合光催化剂可能的光催化机理。

PEI功能化乙酸锌辅助机械化学法合成的ZIF-8吸附CO_(2)性能研究

为开发高效且适合大规模生产的CO_(2)吸附剂,采用乙酸锌为辅助研磨物,ZnO为金属前驱体,利用机械化学法高效合成高比表面积的ZIF-8材料,考察了机械化学法的合成条件及优势,采用湿浸渍法将聚乙烯亚胺(PEI)负载到ZIF-8材料中,通过X射线衍射(XRD)、扫描电镜(SEM)、红外光谱(FT-IR)和N2吸附-脱附等进行表征,评价其CO_(2)吸附性能。结果表明:机械化学法可在短时间内高效合成ZIF-8材料,其收率高达80.7%。机械化学法显著减少了有机溶剂和有机配体的用量,所合成的ZIF-8具有更小的粒径。PEI的加入显著提高了ZIF-8的CO_(2)吸附性能,其中PEI负载量为60%(质量分数)的吸附剂在50℃的吸附量最高,达到90.21 mg/g,较ZIF-8提高约14倍。此外,该复合材料还表现出良好的稳定性和再生性,在CO_(2)吸附领域具有广阔的应用前景。

ZIF-8/PEO杂化泡沫对TC和Cu^(2+)吸附研究

以提高金属有机骨架ZIF-8水处理中可回收性为目标,利用聚氧化乙烯PEO作为致孔剂,采用冰模板-冷冻干燥法制备金属有机骨架杂化泡沫ZIF-8/PEO,利用XRD、SEM、TG-DSC和N2吸附-脱附等表征手段,分析ZIF-8/PEO杂化泡沫的理化性能,研究ZIF-8/PEO对四环素TC和铜离子Cu^(2+)吸附性能及吸附机理。试验结果表明:ZIF-8/PEO形成了更加规则的网状结构且具有良好的机械强度和吸附性能。在吸附时间12 h,pH 7,吸附剂投加量40 mg,TC和Cu^(2+)初始浓度均为30 mg/L的最佳条件下,ZIF-8/PEO对TC和Cu^(2+)的吸附容量为107.55 mg/g和107.81 mg/g;等温吸附过程符合Langmuir模型,动力学过程符合拟二级动力学模型,ZIF-8/PEO吸附TC,Cu^(2+)属于自发、放热、趋于有序的过程。在循环吸附7次后,ZIF-8/PEO吸附剂对TC和Cu^(2+)的去除率仍在70%以上。

ZIF-8@STPP-MCS的制备及其用于自来水中Cu(Ⅱ)的吸附

为提高磁性壳聚糖(MCS)对Cu的吸附效率,本研究通过MCS表面引入ZIF-8,制备了三聚磷酸钠(STPP)交联的MCS复合材料ZIF-8@STPP-MCS,应用于自来水中Cu(Ⅱ)的吸附。采用SEM-EDS、XRD等技术对ZIF-8@STPP-MCS进行了形貌、结构和性能的表征。结果表明:当溶液pH=6,吸附剂投加量0.5 mg/mL时,ZIF-8@STPP-MCS对Cu(Ⅱ)吸附效果最佳,对自来水中Cu(Ⅱ)的脱除率可达99%以上。拟二级动力学和Sips模型较好地描述了ZIF-8@STPP-MCS的吸附过程,最大吸附量为112.8 mg/g。

冷冻辅助-界面反应法制备ZIF-8衍生物纳滤膜及其药物脱盐性能研究

纳滤膜分离技术在药物脱盐领域具有较大应用潜力,而开发高性能的纳滤膜材料仍具有较大挑战.本研究采用冷冻辅助-界面反应法在氧化铝多孔支撑体内部原位生长了ZIF-8分离层,然后通过硫化处理形成ZIF-8衍生物(ZnS),提高了纳滤膜的渗透性和稳定性.通过SEM、EDS、XRD以及FT-IR等手段对ZIF-8及其衍生物复合膜的结构和化学性质进行了表征.将ZIF-8及其衍生物复合膜用于药物脱盐,考察了前驱体摩尔比、浓度以及反应温度对纳滤性能的影响.在最优条件下,ZnS纳滤膜对四环素的截留率为99.1%,对NaCl截留率小于10%,通量为335.6 L/(m^(2)·h·MPa),表现出良好的抗生素脱盐性能和稳定性.

ZIF-8修饰同质异相结TiO_(2)的光催化固氮性能研究

光照条件下合成了微量ZIF-8定向修饰同质异相结TiO_(2)的ZIF-8/TiO_(2)复合材料以提高TiO_(2)的光催化固氮能力.利用X射线衍射(XRD)、场发射电子扫描显微镜(FESEM)、X射线光电子能谱(XPS)、UV-Vis漫反射谱、电化学阻抗谱等对合成材料的结构组成、形貌及光电性能等进行表征.结果表明,适量的ZIF-8修饰除了能显著增加TiO_(2)复合材料的比表面积和改善孔径分布范围之外,还能增强对可见光的吸收能力以及光生电荷的分离能力.光催化测试结果表明,ZIF-8/TiO_(2)-3复合材料的平均固氮速率达到了742μmol·L^(-1)·g^(-1)·h^(-1),约为同质异相结TiO_(2)的3.78倍,ZIF-8的3.71倍.经5次光催化循环后其光催化性能几乎没有衰减,表现出较好的光催化固氮活性和高的稳定性.为光催化固氮材料的设计提供了参考.

金属有机骨架ZIF-8材料作为农药载体的研究进展

将农药有效成分负载到适宜的载体材料上,通过对载药颗粒进行修饰赋予药物靶向传输、控制释放等功能,可以提高药效和利用率、延长持效期、降低副效应。金属有机骨架(MOFs)由于其独特的结构特征和功能特性,在农药负载领域受到了广泛的关注。其中,沸石咪唑酸酯骨架-8 (ZIF-8)是MOFs中一种性能优异的材料,具有比表面积大、孔隙率高、稳定性高、制备简单、pH响应及生物相容性好等优点,是一种理想的农药载体材料。本文总结了ZIF-8常见的合成方法以及常用的负载药物方法,重点综述了ZIF-8作为农药载体的研究进展,分析了ZIF-8作为农药载体可能存在的问题和未来的研究方向,为ZIF-8在农药负载领域的研究与应用提供参考。

Ni/CeO_(2)@ZIF-8核壳结构催化剂的制备及其RWGS反应性能研究

利用液相浓度控制成核法制备了ZIF-8包覆的Ni/CeO_(2)核壳结构催化剂,通过一系列表征技术,研究了ZIF-8壳层对催化剂物理化学性质的影响,并进一步探究引入ZIF-8对于催化剂上的RWGS反应性能与路径的影响。结果表明,ZIF-8壳层能够增大催化剂的比表面积,减弱加氢能力和对CO的吸附强度,在300℃,0.1 MPa,GHSV=6 L/(g·h)和CO_(2)∶H_(2)=1∶3的反应条件下,核壳结构催化剂上的CO选择性提升了60.3%。ZIF-8包覆前后的Ni基催化剂上的反应中间物种不同,生成CO的主要中间体为羧酸盐而CH_(4)则为甲酸盐,ZIF-8壳层的存在抑制了羧酸盐进一步加氢转化为甲酸盐,从而抑制了甲烷化副反应进行,提高了RWGS反应的CO选择性。

掺Mg^(2+)的ZIF-8材料的制备及抗菌和促成骨性能研究

金属有机框架材料被广泛应用于种植体、骨修复等医疗领域。选用二甲基咪唑为有机配体,Mg^(2+)、Zn^(1+)为金属结节,通过溶剂热法在室温下成功合成纳米级Mg@ZIF-8有机框架材料。Mg@ZIF-8纳米颗粒为正十二面体结构,粒径为200~400 nm,具有Mg–N、Zn–N、C–N、C=C、C=N、C-H官能团,在酸性微环境下不稳定,以上物理表征与ZIF-8相似。抗菌实验结果表明:随着Mg^(2+)浓度的升高,Mg@ZIF-8对大肠杆菌的抗菌性能逐步提高,而且一定浓度的Mg^(2+)对金黄色葡萄球菌的抗菌性能也有所提高。体外矿化实验表明:Mg^(2+)能够促进钛片表面P、Ca的沉积。Mg@ZIF-8有机框架材料在植入物领域有良好的应用前景。

NaBiS_(2)/ZIF-8复合多糖海绵的制备及其对亚甲基蓝降解性能研究

采用相转化法制备了硫化铋钠(NaBiS_(2))/ZIF-8复合多糖海绵(ZBiCCS),用于高效去除染料废水中的亚甲基蓝(MB)。通过X射线衍射仪、傅里叶变换红外光谱仪、扫描电子显微镜、透射电子显微镜等对复合海绵结构、形貌以及光学性能进行了表征并研究了其对MB染料的吸附-降解性能。结果表明,纤维素和壳聚糖得到再生,并且在复合海绵表面原位生成了NaBiS_(2)和ZIF-8纳米颗粒。在Zn^(2+)盐和Bi^(3+)盐摩尔为2∶1,MB初始质量浓度为30mg/L,模拟太阳光作为光源条件下,复合海绵对MB的降解率可达到98.88%,表明复合海绵能够利用吸附-光降解协同效应高效去除废水中的MB,该材料在染料废水处理方面具有潜在的应用价值。

ZIF-8有机框架衍生的D-ZnO@Fe_(x)O_(y)S型异质结用于光辅助铀还原

光催化辅助铀提取作为一种新型的铀提取技术,有望克服传统工艺中多种金属离子与U(Ⅵ)的竞争配位以及富集容量有限的难题。在这项研究中,以ZIF-8为前驱体,通过浸渍和高温热解制备了S型ZIF-8衍生氧化锌@铁氧化物(D-ZnO@Fe_(x)O_(y))异质结,用于光辅助还原铀矿废水中的U(Ⅵ)。相比于铁氧化物(Fe_(x)O_(y))和ZIF-8衍生ZnO(D-ZnO),S型异质结D-ZnO@Fe_(x)O_(y)在竞争离子存在下,表现出优异的光辅助铀还原能力(>95%)。通过能带计算证实了在异质结界面形成内置电场,能够有效增强电子定向迁移,并为促进铀的光辅助还原提供了强大的驱动力。机理研究表明,羟基自由基和超氧自由基是参与光催化还原U(Ⅵ)的主要物质。本研究为探索具有高效光电子分离功能的光催化剂还原U(Ⅵ)提供了一条有价值的途径。

Ag/ZIF-8复合材料的制备及其光降解性能

在无表面活性剂微乳液中制备了ZIF-8材料,并采用光致还原法将纳米Ag负载于ZIF-8表面,制备了负载量不同的系列Ag/ZIF-8复合材料。XRD、SEM、XPS、UV-DRS以及光电性能测试表明Ag成功负载到ZIF-8中,且光电性能大幅度提高。对比考察了ZIF-8和Ag/ZIF-8对有机染料的光降解效率,提出了光催化机理。由于Ag纳米粒子和ZIF-8的协同效应,其所形成的异质结构Ag/ZIF-8表现出了优异的光催化活性。

ZIF-8/纳米纤维素对竹木复合纤维除臭性能的影响

近年来,随着人们生活品质要求的不断提升,具有除臭性能好、吸收性能强和价格成本低廉的纤维材料在婴幼儿、成人除臭纸尿裤等卫生用品中的需求量不断增高。但目前市场上的除臭纤维基本存在除臭性能差、吸水性弱以及成本高的问题,严重制约我国除臭功能性纤维材料的国际竞争力。笔者以国内常见的白竹炭纤维和针叶木纤维为基本原料,以ZIF-8纳米粒子和纳米纤维素(CNF)为除臭改性填料,通过复合加工工艺,制备了兼具除臭和吸水功能的竹木复合除臭纤维,并探究了白竹炭纤维和针叶木纤维原料质量比、改性填料含量对复合除臭纤维微结构、吸水以及除氨气、硫化氢等臭味气体的影响规律。研究结果表明,所制备复合除臭纤维最佳工艺条件为针叶木纤维与白竹炭纤维绝干质量比为70∶30,ZIF-8和CNF的质量分数分别为7%和6%,23℃下风干处理24 h,在该工艺条件下制备的除臭纤维对氨气和硫化氢的消臭率分别为84.56%和83.11%,吸水量为8.4 g/g,除臭纤维性能达到国家标准GB/T 33610.2—2017(消臭率≥70%)的要求。