UiO-66-NH2接枝吡啶亚胺钴系催化剂的合成及催化乙烯齐聚性能

以金属有机骨架(MOFs)UiO-66-NH2和吡啶-2-甲醛为原料,采用后合成修饰法制备一种UiO-66-NH2接枝吡啶亚胺配体,然后以UiO-66-NH2接枝吡啶亚胺配体和CoCl2·6H2O为原料,经配合反应,合成出一种UiO-66-NH2接枝吡啶亚胺钴系催化剂.采用傅里叶红外变换光谱(FT-IR)、X射线衍射(...     

UiO-66-NH2/wood的设计构筑及高效去除水中微量重金属离子性能

矿山开采、 金属冶炼、 新型金属材料的发展以及城市供水系统老化所造成的重金属(铅、 镉、 汞、 砷、 铬、 铜及锌等)污染问题已日趋严重. 传统的水处理方法很难有效地去除低浓度的重金属污染物. 本文以天然木材为载体, 采用溶剂热合成法, 在木材三维孔道中原位合成UiO-66-NH₂金属有机框架材料(MOFs)纳米颗粒, 制备了UiO-66-NH₂/wood复合膜材料. 该复合膜材料对去除水中微量重金属离子(Hg²⁺, Cu²⁺)表现出优异的性能. 当处理速率为1.1×10² L?m^-2?h^-1时, 该复合膜材料去除水中微量重金属离子的效率仍可达到90%以上, 且处理后水中重金属离子含量低于国家饮用水标准. 这可归因于木材本身独特的三维孔道结构, 在提高水通量的同时, 还可以增加水溶液中重金属离子与MOFs颗粒的接触机会, 以及孔道内均匀分布的UiO-66-NH₂ MOFs颗粒中的—NH₂可以与重金属离子通过配位作用相结合. 该UiO-66-NH₂/wood复合膜材料还具有良好的重复利用性, 在连续6次循环使用后其去除效率无明显变化, 有望进行实际应用.     

新型金属有机气凝胶的合成、 表征及气体吸附性能

利用高稳定性的UiO-66系列金属有机骨架多孔材料制备金属有机气凝胶材料, 制得的UiO-66系列金属有机气凝胶材料具有多级孔结构和较高的比表面积, 在气体吸附分离领域具有较大应用潜力. 气体吸附实验结果表明, UiO-66-NH₂金属有机气凝胶材料具有极佳的CO₂吸附性能和CO₂/CH₄分离性能, 通过理想吸附溶液理论计算得出其吸附选择性高达18.3.     

UiO-66-NH_(2)@纤维素复合气凝胶用于保健品中西地那非的固相萃取北大核心CSCD

研究建立了一种基于UiO-66-NH_(2)@纤维素复合气凝胶的高灵敏度固相萃取新方法,与高效液相色谱法联用用于保健品中西地那非的检测。先将纤维素进行醛基和酰肼基的功能化,然后将两种功能化的纤维素通过交联并负载UiO-66-NH_(2)形成复合气凝胶。将此复合气凝胶作为固相萃取的吸附剂使用时,易于收集且不需要外加磁场或者抽真空的辅助作用,操作简单。研究对制备所得的UiO-66-NH_(2)@纤维素复合气凝胶进行了X-射线粉末衍射、扫描电镜、红外光谱和N_(2)吸附等表征,结果显示UiO-66-NH_(2)成功负载于气凝胶的孔道中,纤维素气凝胶掺杂了UiO-66-NH_(2)之后其孔道结构变得规整,并且比表面积增大。研究优化了复合气凝胶中UiO-66-NH_(2)的负载量对萃取的影响,高比例的负载量有利于西地那非的富集,并且最高的负载率为50%。研究优化了影响西地那非富集效率的实验条件,包括溶液pH、萃取时间、洗脱剂类型、洗脱时间、洗脱体积和离子强度。采用安捷伦Zorbax Eclipse Plus C18色谱柱(150 mm×4.6 mm,5μm)进行分离,以含0.1 mol/L三乙胺的磷酸盐水溶液(pH=6.50)-乙腈(30∶70,v/v)为流动相进行洗脱,检测波长为292 nm。在最佳的萃取条件下(pH为9.0,萃取时间为60 min,洗脱剂为乙腈,洗脱液体积为3×2 mL,洗脱时间为40 min),该分析方法的线性范围为10~2000 ng/mL(相关系数R^(2)=0.9949),检出限(LOD,S/N=3)为2.85 ng/mL,富集因子为59.17。将该方法用于保健品中西地那非的萃取,所得回收率为74.93%~89.12%,相对标准偏差为2.8%~5.3%,表明了方法的回收率和精密度良好,说明了该方法具有应用于保健品中西地那非日常检测的潜力。     

Self-assembled nanozyme complexes with enhanced cascade activity and high stability for colorimetric detection of glucose

In this work, a hybrid multi-enzyme system, CeO₂/glucose oxidase (GOx) nanocomplex was developed via self-assembly and exhibited excellent catalytic activity toward cascade reactions, offering a simple and efficient example to build spatially confined multi-enzyme systems to potentiate their applications in energy conversion, detoxification and bioanalysis.     

UMCM-1-NH2的后合成修饰及在制备β-氨基醇反应中的应用

采用后合成修饰(PSM)技术将水杨醛锚装到UMCM-1-NH₂上, 得到席夫碱功能化的多孔金属-有机骨架化合物UMCM-1-NH-Sal, 在该化合物孔道内的席夫碱N、 O原子上螯合铜离子得到UMCM-1-NH-Sal-Cu催化剂, 并用核磁共振氢谱(¹H NMR)、 X 射线衍射(PXRD)、 热重分析(TG)、 N₂ 吸附-脱附等手段对催化剂进行了表征, 将其用于催化有机胺和环氧化物的开环反应制备β-氨基醇, 结果表明该催化剂具有良好的催化效果.     

UiO-67-Sal-CuCl2在空气中催化芳香醇的选择性氧化

利用水热法一步合成了金属有机骨架(MOFs)材料UiO-67-Sal, 并将3种铜盐固定在其表面, 研究了3种铜MOFs材料催化芳香醇选择性氧化的性能. 结果表明, UiO-67-Sal-CuCl₂催化剂对芳香醇选择性氧化反应具有良好的催化活性, 且在重复使用4次后, 依然保持较好的催化效果.     

Synergistic Catalysis of Enzymes and Biomimetic MOFs:Immobilizing Cyt c on Two-dimensional MOFs to Enhance the Performance of Peroxidase

Metal-organic frameworks(MOFs) have been widely regarded as promising carriers for enzyme immobilization owing to their advantages in improving loading and regulating interaction with enzymes. However, they are still suffering from the problems of slow mass transfer and compromising activity. In this paper, the active two-dimensional(2D) MOF of Cu-TCPP(Fe)[TCPP=tetrakis(4-carboxy-phenyl)porphyrin], which possesses the biomimetic architecture of peroxidase, was adopted to anchor cytochrome(Cyt c) for the enhancement of catalytic activity. The atomic/nanometer thickness and micrometer lateral dimension of 2D MOFs can ensure the full exposure of immobilized enzymes and a shorter diffusion distance for the reactant molecules. Besides, the active carrier can provide synergistic catalysis and activity compensation during the reaction. When tested in the decomposition reaction of H₂O₂, Cyt c/Cu-TCPP(Fe) exhibited nearly twice catalytic activity and an accelerated catalytic rate compared to free Cyt c.     

Synthesis of core-shell structured Au@Bi2S3 nanorod and its application as DNA immobilization matrix for electrochemical biosensor construction

The core-shell structured Au@Bi2S3 nanorods have been prepared through direct in-situ growth of Bi2S3 at the surface of pre-synthesized gold nanorods.The product was characterized by X-ray diffraction,transmission electron microscopy and energy-dispersive X-ray spectroscopy.Then the obtained Au@Bi2S3 nanorods were coated onto glassy carbon electrode to act as a scaffold for fabrication of electrochemical DNA biosensor on the basis of the coordination of-NH2 modified on 5’-end of probe DNA and Au@Bi2S3.Electrochemical characterization assays demonstrate that the Au@Bi2S3 nanorods behave as an excellent electronic transport channel to promote the electron transfer kinetics and increase the effective surface area by their nanosize effect.The hybridization experiments reveal that the Au@Bi2S3 matrix-based DNA biosensor is capable of recognizing complementary DNA over a wide concentration ranging from 10 fmol/L to 1 nmol/L.The limit of detection was estimated to be 2 fmol/L(S/N=3).The biosensor also presents remarkable selectivity to distinguish fully complementa ry sequences from basemismatched and non-complementary ones,showing great promising in practical application.     

花状微球NiO/CeO_2催化剂上乙醇水蒸气重整制氢研究

用水热法制备微米尺寸CeO2花状微球粉体,并通过浸渍/热分解法在该粉体上担载纳米尺寸的NiO颗粒,制得催化剂NiO/CeO2。对催化剂进行了XRD、SEM、XES和BET物性表征。经固定床反应器对催化剂的催化性能进行测试。装载1.0 g催化剂,液体处理量0.05 mL/min。结果表明,该方法合成的催化剂NiO/CeO2对低温乙醇水蒸气重整反应表现出较高的活性和稳定性。同时通过微量Cr、Zn、Cu的加入在低温区抑制了CO、CH4的生成,提高了H2的产率和催化剂的抗积炭能力。该催化剂连续稳定性测试达到2 000 h;进行反复起动稳定性测试12次后,未表现出失活特征。     

2020 Roadmap on two-dimensional nanomaterials for environmental catalysis

This roadmap demonstrates a series of two-dimensional nanomaterials, such as graphene, black phosphorus, oxides, layered double hydroxides, chalcogenides, bismuth-based layered compounds, MXenes, metal organic frameworks, covalent organic frameworks, and others, for environmental catalysis.     

3种金属有机骨架材料用于开管毛细管电色谱手性固定相分离外消旋体

金属有机骨架（MOFs）材料因具有丰富的拓扑结构、高比表面积、良好的稳定性、持久的孔结构以及可修饰的孔道表面等特点,在对映选择性催化和手性分离方面备受关注。该文通过水热法合成了3种具有手性的MOFs晶体,分别为Co₂（D-cam）₂（TMDPy）（简称为MOF 1）、[Cd（D-cam）（tmdpy）]·2H₂O（简称为MOF 2）和[Co_0.5Zn_0.5（L-Tyr）]_n（L-tyrCo/Zn）（简称为MOF 3）,并把它们用作固定相分别制成MOFs手性柱进行开管毛细管电色谱（OT-CEC）研究。在磷酸二氢钠-乙腈的流动相体系下,考察了3根MOFs手性柱对手性化合物的拆分性能。实验结果表明,这3种MOFs手性毛细管柱对部分外消旋体具有较好的拆分效果。目前将手性MOFs作为毛细管电色谱手性分离的研究正处在起步阶段并且具有良好的应用前景。     

A DNA-Gated and Self-Protected Bioorthogonal Catalyst for Nanozyme-Assisted Safe Cancer Therapy

Transition metal catalysts (TMCs) mediated bioorthogonal uncaging catalysis has sparked increasing interest in prodrug activation. However, due to their “always-on” catalytic activity as well as the complex and catalytic-detrimental intracellular environment, the biosafety and therapeutic efficiency of TMCs are unsatisfactory. Herein, a DNA-gated and self-protected bioorthogonal catalyst has been designed by modifying nanozyme-Pd⁰ with highly programmable nucleic acid (DNA) molecules to achieve efficient intracellular drug synthesis for cancer therapy. Monolayer DNA molecules could endow the catalyst with targeting and perform as a gatekeeper to achieve selective prodrug activation within cancer cells. Meanwhile, the prepared graphitic nitrogen-doped carbon nanozyme with glutathione peroxidase (GPx) and catalase (CAT)-like activities could improve the catalytic-detrimental intracellular environment to prevent the catalyst from being inactivated and sensitize the subsequent chemotherapy. Overall, we believe that our work will promote the development of secure and efficient bioorthogonal catalytic systems and provide new insights into novel antineoplastic platforms.     

MxCo3O4/g-C3N4 Derived from Bimetallic MOFs/g-C3N4 Composites for Styrene Epoxidation by Synergistic Photothermal Catalysis

Although metal-organic frameworks(MOFs) have been widely reported as precursors for obtaining various porous materials in recent years, the limited MOF types and monofunctional active site of MOF-based catalysts remain to be hard to crack. Herein, bimetallic MOFs, MCo-ZIFs stabilized by graphitized carbon nitride(g-C₃N₄) and their pyrolytic M_xCo₃O₄/g-C₃N₄ hybrids(M=Zn, Cu, Fe, Ni) have been designedly synthesized. The obtained M_xCo₃O₄/g-C₃N₄ hybrids display synergistic photothermal effect from both M_xCo₃O₄ and g-C₃N₄ under visible light irradiation. Significantly, the solution temperature can be heated from room temperature(20℃) to 66℃ after 40 min irradiation. Therefore, the catalytic activity of M_xCo₃O₄/g-C₃N₄ exceeds those of most reported catalysts under mild reaction conditions. The optimal Zn_xCo₃O₄/g-C₃N₄ catalyst realizes 96% conversion and 75% selectivity toward styrene oxide within 20 min. Incredibly, the Cu_xCo₃O₄/g-C₃N₄ could achieve up to 89% selectivity toward styrene oxide. To our knowledge, this is the first report about the novel photothermal effect of ZIFs-derived metal oxides.     

Nucleic acid functionalized graphene for biosensing

There is immense demand for complex nanoarchitectures based on graphene nanostructures in the fields of biosensing or nanoelectronics. DNA molecules represent the most versatile and programmable recognition element and can provide a unique massive parallel assembly strategy with graphene nanomaterials. Here we demonstrate a facile strategy for covalent linking of single stranded DNA (ssDNA) to graphene using carbodiimide chemistry and apply it to genosensing. Since graphenes can be prepared by different methods and can contain various oxygen containing groups, we thoroughly investigated the utility of four different chemically modified graphenes for functionalization by ssDNA. The materials were characterized in detail and the different DNA functionalized graphene platforms were then employed for the detection of DNA hybridization and DNA polymorphism by using impedimetric methods. We believe that our findings are very important for the development of novel devices that can be used as alternatives to classical techniques for sensitive and fast DNA analysis. In addition, covalent functionalization of graphene with ssDNA is expected to have broad implications, from biosensing to nanoelectronics and directed, DNA programmable, self-assembly.     

DFT studies of the structure, vibrational and NMR spectra of 2-amino-pyridine betaine monohydrate

Four of the most stable conformers of 2-amino-pyridine betaine (1-carboxymethyl-2-amino-pyridinium inner salt) monohydrates, 2-NH₂PB·H₂O, and one anhydrous were analyzed by the B3LYP/6-31G(d,p) calculations and compared with the X-ray data. Two types of optimized conformers can be distinguished: (a) with NH₂ and COO groups and (b) an imino tautomer with NH and COOH groups. A common feature of the optimized molecules are intramolecular hydrogen bonds between the COO⁻ and H₂N or COOH and HN groups. In the crystal both NH₂ and COO groups participate in intermolecular hydrogen bonds. The probable assignments of the anharmonic experimental solid state vibrational frequencies of 2-NH₂PB·H₂O and 2-ND₂PB·D₂O (conformer 2) based on the calculated B3LYP/6-31G(d,p) harmonic frequencies have been made. Correlations between experimental chemical shifts for 2-NH₂PB, its hydrochloride and 1-carboxyethyl-2-amino-pyridinium inner salt (¹³C and ¹H in D₂O) and GIAO/B3LYP/6-31G(d,p) calculated isotropic shielding constants, δ_exp=a+bσ_calc, are reported. Good linear regression between experimental and theoretical results for ¹³C was obtained. Only in 2-NH₂PB the hydrogen at -position is outside the linear correlation.     

等离子体在同时去除NOx和碳烟催化反应中的作用

采用程序升温反应(TPR)技术,研究了等离子体辅助同时催化去除富氧柴油机尾气中NO_x和碳烟(soot)的反应特性.研究结果表明,等离子体提高了同时去除NO_x-soot的催化反应活性,降低了碳烟的燃烧温度,使碳烟起燃温度从300 ℃降到280 ℃,燃尽温度从425 ℃降到380 ℃;同时,等离子体辅助提高了NO_x转化为N₂的效率,使催化选择性从1.12％提高到1.53％.本文还分别研究了在NO和O₂的环境中,有或没有等离子体作用下,碳烟在催化作用下的去除特性.等离子体作用使得NO在和O₂共存、只有NO和只有O₂存在的各种条件下,碳烟的催化燃烧活性都有不同程度的提高,促进了N₂的生成.此外,本文也对等离子体辅助同时催化去除NO_x-soot的机理进行了探讨.     

钯-高分子载体催化剂对糠醛加氢液相反应的研究

以弱碱性苯乙烯系阴离子交换树脂[D392,-NH₂,D382,-NHCH₃,D301R,-NH(CH₃)₂],强碱性苯乙烯系阴离子交换树脂[201×7DVB,-NH⁺(CH₃)₃]和弱碱性环氧系阴离子交换树脂(701,-NH₂)为载体制备了3种钯-高分子载体催化剂.考察了反应条件、高分子载体的种类、钯含量和催化剂用量对糠醛催化加氢生成四氢糠醇反应及催化性能的影响.在体积分数为50%的乙醇-水溶液和水中对糠醛常压液相加氢反应,钯-高分子载体(阴离子交换树脂D392,-NH₂,D382,-NHCH₃)催化剂均可使糠醛的加氢反应转化率达100%,生成四氢糠醇的选择性达98%以上,而用金属钯为催化剂的转化率达70%以上,选择性达97%以上.同时用XPS分析了高分子载体催化剂的结构与催化加氢反应性能的关系.     

Mimicry of peroxidase by co-immobilization of 1-allylimidazole and hemin on N-isopropylacrylamide-based hydrogel

Hemin and 1-allylimidazole (AI) were copolymerized covalently to N,N′-methylene-bis-acrylamide (MBA) cross-linked N-isopropylacrylamide (NIPAAm) hydrogel to form a hemin-based mimetic enzyme of peroxidase, i.e., poly(NIPAAm/MBA/hemin/imidazole). Its catalytic activity was studied in comparison with hemin and a similar hydrogel, poly(NIPAAm/MBA/hemin), that was prepared in the absence of AI. The evaluation was based on their activities in catalyzing oxidation of fluorogenic substrate p-hydroxyphenylacetic (p-HPA) with H₂O₂ as the oxidant. The results showed that the activity of poly(NIPAAm/MBA/hemin/imidazole) is 21% higher than that of poly(NIPAAm/MBA/hemin) and 102% higher than hemin. This mimetic enzyme can be used for the determination of hydrogen peroxide with a detection limit (S/N = 3) of 26 nmol l⁻¹.     

Two isostructural Ni(Ⅱ)/Co(Ⅱ)-based metal-organic frameworks for selective dye adsorption and catalytic cycloaddition of CO2 with epoxides

Two isostructu ral Ni(Ⅱ)/Co(Ⅱ)-based metal-organic frameworks(MOFs),namely {[M₃(L)₂(bpb)₃(H₂ O)₄]·2 DMF·2 H₂O}_n [M=Ni(HL-5,HL is short for Hui-Ling Liu);M=Co(HL-6);H₃ L=2',6'-dimethyl-[1,1'-biphenyl]-3,4',5-tricarboxylic acid;bpb=1,4-bis(pyrid-4-yl)benzene],have been hydrothermally synthesized and structu rally characterized.Both HL-5 and HL-6,which have the same three-interpenetrated3 D pillared-layer framework with sqc306 type topology,present good selective methyl orange(MO)adsorption over rhodamine B(RhB).Moreover,the catalytic CO₂ cycloaddition properties with epoxides of the two MOFs have also been studied at ambient pressure and temperature.