三维有序大孔Al2O3制备的新方法及表征

以聚苯乙烯胶晶为模板,用Al(NO3)3•9H2O为前驱物,使用柠檬酸为配体,成功地制备了孔径为250～350 nm的三维有序大孔Al2O3材料.SEM观察表明,所得大孔材料孔结构规则排列,孔与孔之间通过小孔相连,形成了一个三维有序排列的蜂窝状结构.实验发现,以Al(NO3)3•9H2O为前驱物,加入柠檬酸可以防止团聚粒子的产生,有利于三维有序结构的形成.前驱物浓度在0.5～0.8 mol•L－1范围内均能得到较好的三维有序大孔结构.在1 100 ℃焙烧2 h后,Al2O3大孔材料仍能保持完整的规则孔结构特征,表现出较高的热稳定性.     

Synthesis of Three‐dimensionally Ordered Macroporous TiO2 and TiO2/WO3 Composites and Their Photocatalytic Performance

This work presents the characterization and preparation of three‐dimensionally ordered macroporous TiO₂ and TiO₂/WO₃ composite nanoparticles with enhanced visible‐light‐responsive properties for rhodamine B (Rh B) photodegradation. The 3DOM TiO₂ and TiO₂/WO₃ composites were prepared through a dip‐infiltrating sol‐gel process using a polystyrene (PS) colloidal crystal template. The materials were characterized by SEM, TEM, XRD, BET, XPS and UV/Vis. The 3DOM TiO₂/WO₃ composite structures ranged from well‐defined 3DOM structures, which are highly ordered and interconnected via small pore windows, to collapsed three‐dimensional structures as the WO₃ content increased. The photoresponse range and specific surface area of the composite increased with less than 0.025 g of WCl₆. The 3DOM TiO₂/WO₃ composite with less than 0.025 g of WCl₆ exhibited a higher catalytic activity than 3DOM TiO₂ for the photocatalytic degradation of Rh B under simulated sunlight illumination.     

聚苯乙烯胶晶膜及三维有序大孔SiO2膜的制备及表征

采用垂直沉积法组装了三维聚苯乙烯胶晶膜,并用其为模板制备了三维有序大孔（3DOM）SiO2膜．SEM观察表明,制备的胶晶膜和3DOMSiO2膜具有fcc结构,有序性很好．考察乳液浓度对胶晶膜结构的影响表明,浓度越高,胶晶膜越厚,有序性也越高,膜在30层内都能很好的粘附在载玻片上．通过调整前驱物溶液的浓度和滴加方式,可得到表面为球形或孔状的3DOM SiO2膜．     

Highly crystalline inverse opal transition metal oxides via a combined assembly of soft and hard chemistries

A combined assembly of soft and hard chemistries is employed to generate highly crystalline three-dimensionally ordered macroporous (3DOM) niobia (Nb2O5) and titania (TiO2) structures by colloidal crystal templating. Polystyrene spheres with sp2 hybridized carbon are used in a reverse-template infiltration technique based on the aqueous liquid phase deposition of the metal oxide in the interstitial spaces of a colloidal assembly. Heating under inert atmosphere as high as 900 degrees C converts the polymer into sturdy carbon that acts as a scaffold and keeps the macropores open while the oxides crystallize. Using X-ray diffraction it is demonstrated that for both oxides this approach leads to highly crystalline materials while heat treatments to lower temperatures commonly used for polymer colloidal templating, in particular for niobia, results in only weakly crystallized materials. Furthermore it is demonstrated that heat treatment directly to higher temperatures without generating the carbon scaffold leads to a collapse of the macrostructure. The approach should in principle be applicable to other 3DOM materials that require heat treatments to higher temperatures.     

三维有序大孔CdS/TiO2薄膜的制备及其可见光催化性能

采用胶体晶体模板辅助溶胶-凝胶法以及S2-离子交换法合成了三维有序大孔CdS/TiO₂膜.结果表明,该薄膜材料在可见光催化降解污染水中罗丹明B和对氯苯酚的反应中表现出高活性.这可归因于修饰剂CdS的光敏化作用实现可见光催化,CdS-TiO₂之间形成了异质结,促进了电子和空穴的分离; 另一方面,有序大孔结构有利于光的利用以及反应物的扩散和吸附.     

硝酸盐制备三维有序大孔金属氧化物材料研究

用硝酸盐、柠檬酸和乙醇/水按一定摩尔比配置成前驱物溶液, 采用胶晶模板法, 制备了三维有序大孔金属氧化物材料: Al₂O₃, CeO₂, Cr₂O₃, NiO, MgO, In₂O₃, CeO₂/Al₂O₃, Cr₂O₃/Al₂O₃和NiO/Al₂O₃. SEM观察表明, 材料中大孔有序排列, 大孔间由小孔相连, 形成三维规则的笼状网络结构. XRD和TEM测试表明, 大孔孔壁由具有纳米尺寸的金属氧化物粒子组成. 实验表明, 加入乙醇、柠檬酸, 提高溶液对胶球润湿性, 改善溶液渗透能力, 避免粒子团聚, 有利于有序大孔结构的形成. 这一研究表明, 根据硝酸盐的物理化学性质, 调整溶液组成, 选择合适的热处理温度, 能得到大孔排列有序、三维规整性好的大孔结构材料. 此法具有原料易得, 操作简单的特点, 是3DOM材料的一种新型高效制备路线.     

Ordered macroporous quercetin molecularly imprinted polymers: Preparation,characterization, and separation performance

Ordered macroporous molecularly imprinted polymers were prepared by a combination of the colloidal crystal templating method and the molecular imprinting technique by using SiO₂ colloidal crystal as the macroporogen, quercetin as the imprinting template, acrylamide as the functional monomer, ethylene glycol dimethacrylate as the cross‐linker and tetrahydrofuran as the solvent. Scanning electron microscopy and Brunauer–Emmett–Teller measurements show that the ordered macroporous molecularly imprinted polymers have a more regular macroporous structure, a narrower pore distribution and a greater porosity compared with the traditional bulk molecularly imprinted polymers. The kinetic and isothermal adsorption behaviors of the polymers were investigated. The results indicate that the ordered macroporous molecularly imprinted polymers have a faster intraparticle mass transfer process and a higher adsorption capacity than the traditional bulk molecularly imprinted polymers. The ordered macroporous molecularly imprinted polymers were further employed as a sorbent for a solid‐phase extraction. The results show that the ordered macroporous molecularly imprinted polymers can effectively separate quercetin from the Gingko hydrolysate.     

胶粒晶体模板法制备三维有序大孔材料

使用胶粒模板法制备三维有序大孔材料（three-dimensional ordered macroporous material,3DOM）是一个快速发展的领域。本文综述了3DOM的合成技术,包括各种填充模板的方法、模板的去除方法以及它们在光子晶体、催化材料、生物传感器以及医学等方面的应用前景。     

三维有序大孔α-Fe2O3的制备及电化学性能研究

通过聚苯乙烯(PS)胶晶模板法合成了三维有序大孔(3DOM) α-Fe2O3, 运用扫描电镜、热重分析、X射线衍射、电化学充放电等多种方法对其结构和性能进行了表征和研究. SEM表明PS 胶晶模板和3DOM α-Fe2O3呈周期性排列. 合成的3DOM α-Fe2O3为三维有序多孔网状结构, 具有球型和六边形的孔隙形貌, 其孔径大小约为(115±10) nm; 孔壁由α-Fe2O3纳米晶粒组成, 壁厚为20～30 nm. XRD图谱表明经过煅烧除去模板后, 形成了纯α-Fe2O3相. 当3DOM α-Fe2O3作为锂离子电池负极材料时, 首次放电充电容量分别高达1880和1130 mAh•g－1, 20次循环后可逆容量依然高达631 mAh•g－1, 库仑效率大于90%.     

胶体晶体模板法制备三维有序大孔复合氧化物*

胶体晶体模板法是制备三维有序大孔（3DOM）复合氧化物材料的有效方法。制备过程一般包括3个步骤：首先,将单分散微球堆积成三维有序排列的胶体晶体;其次,将液态前驱体填充到胶体晶体的间隙,并在原位转化为固体骨架;最后,将微球去除,在原来微球间的空隙位置得到固体骨架,原来微球占据的位置则成为相互连接的孔穴。其中,胶体晶体模板的组装、前驱体的填充以及模板的去除都是制备3DOM复合氧化物的关键影响因素。本文针对这几个控制因素对胶体晶体模板法制备3DOM复合氧化物的影响进行了概述,并对孔结构的表征以及材料在催化和电极材料等方面的应用作了简单介绍。     

Immobilization of Glucose Oxidase on Ordered Macroporous Silicas Functionalized with Amino Group

A novel glucose oxidase immobilized on three‐dimensionally ordered macroporous (3DOM) material has been prepared by firstly preparation of hybrid 3DOM SiO₂‐NH₂ materials using colloidal crystal method, and following covalent immobilization of glucose oxidase on the pore walls of the 3DOM materials. The materials were characterized by SEM, FTIR, DSC and BET techniques. SEM observation shows that the macropores are highly ordered and are interconnected by small windows. FTIR measurement shows that there are amino and organic groups in the pore walls. The surface area of the 3DOM SiO₂‐NH₂ material is about 10.2 m²/g. The loaded amount of enzyme is increased with amino content in the materials. The immobilized enzyme has high activity, thermal stability and can be reused.     

作为锂离子电池负极材料的三维有序大孔SnO2的 制备及表征

通过聚苯乙烯(PS)胶晶模板法合成了三维有序大孔(3DOM) SnO2. 运用扫描电镜、热重分析、X射线衍射、电化学充放电等多种方法对其结构和性能进行了表征和研究. SEM图表明PS胶晶模板微球排列规整, 大小均匀(直径275±10 nm), 形成多层六方紧密堆积排列; 煅烧除去模板后的3DOM SnO2呈三维多孔网络结构, 具有圆型和六边形的孔隙形貌, 其孔径大小为(215±10) nm; 孔壁由SnO2纳米晶粒组成, 壁厚为20～30 nm. XRD图谱表明经过煅烧除去模板后, 形成了纯SnO2相. 当作为锂离子电池负极材料时, 3DOM SnO2表现出较好的充放电容量和库仑效率. 此外, 这种合成方法简单、经济, 可进一步应用于其它锂离子电池材料的合成.     

三维有序大孔尖晶石型Li1.6Mn1.6O4的制备及锂离子筛吸附特性

用LiNO3、Mn(Ac)2•4H2O和柠檬酸的混合溶液填充聚甲基丙烯酸甲酯胶体晶体模板, 在空气中氧化焙烧, 制备出三维有序大孔尖晶石型锂锰氧化物Li1.6Mn1.6O4. 前驱体经过0.1 mol/L盐酸脱锂后获得相应的三维有序大孔锂离子筛, 其大孔直径和孔壁厚度分别为240 nm和50 nm左右. XRD测试结果表明, Li1.6Mn1.6O4、锂离子筛和吸锂后的样品均保持尖晶石结构. 三维有序大孔材料呈现彼此连通的孔道空间, 缩短了Li+的平衡吸附时间, 前驱体脱锂率在80 ℃时达到95%, 而锰的溶损率在低于60 ℃时小于2.5%. 溶液温度对Li+的交换能力影响很大, 升高温度, Li+与H+的可逆交换程度增大, Li+的最大吸附容量为56.7 mg/g, 但处于锰16d八面体缺陷位置的氢难于被交换. pH滴定和分配系数(Kd)分析表明, 该固体酸在Li+, Na+和K+共存溶液中对Li+的吸附具有较高的选择性.     

三维有序大孔杂化SiO2的制备、表征及应用

本研究将有机-无机杂化功能材料与有序大孔材料独特的有序开孔结构相结合,在制备的三维有序大孔二氧化硅（3DOM SiO₂）孔壁上可控接枝带有功能基团的聚合物链段,制备3DOM杂化材料。采用表面引发原子转移自由基（SI-ATRP）接枝技术在3DOM SiO₂孔壁上可控接枝聚甲基丙烯酸缩水甘油酯（PGMA）链段,讨论了接枝条件对接枝量及接枝链段分子量的影响,并利用FT-IR、SEM、TGA、GPC等对接枝过程进行了表征。PGMA接枝链段上环氧基团可进一步与亲核试剂（二乙醇胺,浓硫酸和二乙烯三胺）发生开环反应,得到一系列带有不同官能团的具有较高接枝密度的功能杂化多孔材料,同时,利用该种材料对水中的水杨酸进行了吸附实验,吸附结果表明经二乙烯三胺开环后得到的功能化多孔材料对水杨酸具有很高的吸附量。本研究对于发展新型杂化多孔材料提供了新的方法。     

三维有序大孔杂化SiO2的制备、表征及应用

将有机-无机杂化功能材料与有序大孔材料独特的有序开孔结构相结合,在制备的三维有序大孔二氧化硅(3DOM Si O2)孔壁上可控接枝带有功能基团的聚合物链段,制备3DOM杂化材料。采用表面引发原子转移自由基(SI-ATRP)接枝技术在3DOM Si O2孔壁上可控接枝聚甲基丙烯酸缩水甘油酯(PGMA)链段,讨论了接枝条件对接枝量及接枝链段分子量的影响,并利用FTIR、SEM、TGA、GPC等对接枝过程进行了表征。PGMA接枝链段上环氧基团可进一步与亲核试剂(二乙醇胺,浓硫酸和二乙烯三胺)发生开环反应,得到一系列带有不同官能团的具有较高接枝密度的功能杂化多孔材料,同时,利用该种材料对水中的水杨酸进行了吸附实验,吸附结果表明经二乙烯三胺开环后得到的功能化多孔材料对水杨酸具有很高的吸附量。     

光还原Pt掺杂三维有序大孔ZrO2复合材料的光降解与光解水制氢

采用胶晶模板技术结合光还原方法制备了Pt掺杂复合材料三维有序大孔Pt/ZrO2(3DOM Pt/ZrO2)。通过X-射线衍射(XRD)、X-射线光电子能谱(XPS)、扫描电子显微镜(SEM)、紫外–可见漫反射吸收光谱(UV–Vis/DRS)和氮气吸附–脱附等测试方法对纳米复合材料3DOM Pt/ZrO2的晶相、组成、结构、形貌以及表面物理化学性质等进行表征。结果表明,Pt掺杂复合材料3DOM Pt/ZrO2与单体ZrO2的晶相相一致,其形貌呈现三维有序大孔结构,且孔结构排列整齐有序,孔壁为介孔结构。经光还原作用后该复合材料中Pt主要以单质形式存在,并且均匀分布在三维有序复合材料表面。同时,与单体ZrO2相比,纳米复合材料3DOM Pt/ZrO2的BET比表面积显著增大,光吸收性能发生改变,在240–350 nm间呈现强吸收。另外,在多模式光降解实验中,3DOM Pt/ZrO2的光活性明显增强。同时,其光解水制氢性能差不多是P25的2.5倍。     

Preparation and formation mechanism of three-dimensionally ordered macroporous (3DOM) MgO, MgSO4, CaCO3, and SrCO3, and photonic stop band properties of 3DOM CaCO3

Three-dimensionally ordered macroporous (3DOM) magnesium (Mg) oxide (MgO), MgSO₄, calcium (Ca) carbonate (CaCO₃), and strontium (Sr) carbonate (SrCO₃) were prepared using a colloidal crystal of polymer spheres as a template. Ethanol or ethanol-water solution of metal salts (acetate or nitrate) and citric acid was infiltrated into the void of the colloidal crystal template of a monodispersed poly(methyl methacrylate) (PMMA) sphere. Heating of this PMMA-metal salt-citric acid composite produced the desired well-ordered 3DOM materials with a high pore fraction, which was confirmed by powder X-ray diffraction (XRD), scanning electron microscopy (SEM), transmission electron microscopy (TEM), and ultraviolet-visible (UV-vis) diffuse reflectance spectra. The presence of citric acid is crucial for production of the 3DOM structures. Reaction of citric acid with metal salt produces metal citrate solid in the void of PMMA spheres, which is necessary to maintain the 3DOM structure during the calcination process. 3DOM CaCO₃ shows opalescent colors because of it's photonic stop band properties.     

三维有序大孔钙钛矿型氧化物LaFeO3的合成及甲烷化学链重整性能

采用无皂乳液聚合法制备了聚苯乙烯(PS)聚合物微球,并采用胶晶模板法制备了三维有序大孔3DOM LaFeO₃钙钛矿型氧化物.通过扫描电镜、X射线衍射和傅里叶变换红外光谱等手段对氧化物的性能进行了表征.利用程序升温还原和多次氧化还原循环反应评价了氧化物的反应性,并在固定床反应器上研究了其甲烷氧化性能.结果表明,与离心法和蒸发法相比,垂直沉积法获得的PS微球模板排列更均匀有序;前驱物溶剂及浓度对最终的三维有序大孔材料的结构有显著影响,利用乙醇为前驱物溶剂所制备的样品比利用乙烯为溶剂的样品具有更好的三维有序大孔结构,前驱物乙醇溶液浓度在1.0 mol/L为宜.甲烷氧化实验表明,3DOM-LaFeO₃钙钛矿型氧化物中存在两种氧物种:表面吸附氧和体相晶格氧.表面吸附氧主要在反应初期将甲烷完全氧化为CO₂和水蒸汽,而体相晶格氧主要将甲烷部分氧化为H₂和CO.在甲烷部分氧化反应中,三维有序大孔LaFeO₃钙钛矿型氧化物比相同质量的纳米LaFeO₃氧化物提供了更多的氧,并且可使甲烷在较宽的反应阶段生成H₂和CO摩尔比为2:1的合成气,从而更有利于后续的费托合成等工艺.     

三维有序大孔锂离子筛的制备及其交换性能研究

由110 nm聚苯乙烯(PS)微球组装晶体胶体模板,并用此模板合成三维有序大孔(3-dimensionally ordered macroporous,3DOM)锂离子筛前驱体Li4Ti5O12,用1.0 mol.L-1的盐酸改型制得锂离子筛H4Ti5O12(LiTi-H)。用XRD、SEM、饱和交换容量、pH滴定曲线等表征了材料的形貌、结构和离子交换性能。同时测定了25℃时LiTi-H在0.05 mol.L-1Li+体系吸附锂的动力学数据,并采用吸附动力学Bangham方程和Elovich方程关联离子筛LiTi-H对Li+的离子交换动力学数据。结果表明:PS胶体晶体模板和3DOMLi4Ti5O12锂离子筛前驱体均排列规则有序,大孔直径约90 nm,Li4Ti5O12为尖晶石结构;3DOM Li4Ti5O12酸稳定性好,锂离子筛LiTi-H对Li+具有较高的选择性,对Li+的饱和交换容量达56.70 mg(Li+).g-1;动力学模型用Elovich模型关联较好,离子筛对Li+的离子交换动力学方程是Q=-26.510 4+11.977 4lnt(25℃)。     

Three‐Dimensionally Ordered Macroporous Nitroxide Polymer Brush Electrodes Prepared by Surface‐Initiated Atom Transfer Polymerization for Organic Radical Batteries

The synthesis and electrochemical performance of three‐dimensionally ordered macroporous (3DOM) nitroxide polymer brush electrodes for organic radical batteries are reported. The 3DOM electrodes are synthesized via polystyrene colloidal crystal templating with electropolymerization of polypyrrole, modification of surface initiator, and surface‐initiated atom transfer radical polymerization. The discharge capacity of the 3DOM electrodes is proportional to the thickness of the inverse opal. The discharge capacity of the 3DOM electrode at a discharge rate of 5 C is 40 times higher than that of the planar electrode; its cycle‐life performance exhibits 96.1% retention after 250 cycles.