漂浮法制备SiO2有序大孔材料

用漂浮组装方法以亚微米尺度单分散的聚苯乙烯(PS)微球作为模板, 在悬浮液气-液界面处组装PS模板微球与纳米级胶体颗粒, 形成二元胶体颗粒共混物, 再去除模板得到有序大孔材料.     

三维有序多孔图案化SiC陶瓷的制备

结合毛细管微模塑技术、模板技术和先驱体转化技术, 以图案化聚二甲基硅氧烷(PDMS)弹性体为模具,以氧化硅凝胶小球为模板, 以液态聚碳硅烷(PCS)为先驱体, 经过氧化硅凝胶小球图案化模板的形成, 先驱体的渗入, 模板中先驱体的交联, 弹性模具的去除, 图案化先驱体的无机化和模板的去除, 制备了图案化多孔SiC 陶瓷.研究结果表明：所制备的图案化多孔陶瓷中, 图案的尺寸受图案化PDMS 弹性模具的控制, 球形孔的孔径可由氧化硅凝胶小球来调节. 图案化陶瓷中球形孔不仅三维有序排列, 而且由于模板中小球的相互接触形成的“窗 口”使球形孔三维贯通.     

3-D ordered macroporous cuprous oxide: Fabrication, optical, and photoelectrochemical properties

Cuprous oxide 3-D ordered macroporous material was constructed by electrochemical deposition using a polystyrene colloidal crystal as template. The highly ordered macroporous structure with a hexagonal array can be extended over hundreds of square micrometers. The photonic stop bands of both the PS colloidal crystal and Cu2O 3DOM were found. Due to the highly ordered porous structure, the optical absorption and the charge carrier transportation are better in Cu2O 3DOM than in bulk Cu2O, which makes the reduction of oxygen faster on Cu2O 3DOM than on bulk Cu2O under visible light illumination. The higher photocurrent efficiency under visible light illumination makes the 3DOM Cu2O more suitable for solar applications.     

Preparation and characterization of three-dimensionally ordered macroporous yttria-stabilized zirconia by aqueous organic gel route

Three-dimensionally ordered macroporous (3-DOM) yttria-stabilized zirconia (YSZ) was prepared by aqueous organic gel method through the interstitial spaces between polystyrene spheres assembled on glass substrates. The morphologies and pore size of the porous YSZ were characterized by scanning electron microscope (SEM) and nitrogen adsorption. The thermal behavior, the phase and chemical composition of PS/YSZ composite were investigated by Fourier transform infrared spectroscopy (FT-IR), X-ray diffraction (XRD) and X-ray photoelectron spectroscopy (XPS). The results show that porous YSZ has been formed with the pores arranged in an ordered close-packed three-dimensional structure. Ni/YSZ cermet was also prepared by immersing the 3-DOM YSZ into the solution of nickel nitrate and urea. The electrical conductivity of Ni/YSZ was about 400 S cm⁻¹ between 600 and 800 °C.     

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.     

In-situ incorporation of gold nanoparticles of desired sizes into three-dimensional macroporous matrixes

We present here a facile route to the incorporation of gold nanoparticles (GNPs) with desired sizes into three-dimensionally ordered macroporous (3DOM) matrixes. Our route combined the first attachment of small GNPs to the silica colloidal crystal templates as precursors and their subsequent controlled growth by the in-situ chemical reduction method. The desired enlargement of GNPs was acquired via their alternating and repeated exposure to solutions of auric salts and reducing agent NH(3)OH. Such gold-decorated silica templates were also converted into self-sustained polystyrene (PS) macroporous films with GNPs embedded in their wall structures. The growth of gold seeds can be easily followed by their UV-vis absorbance spectra. The route provides an alternative way to incorporate GNPs with predetermined sizes into 3DOM matrixes without destroying their ordered structures. A highlight of our approach is that it obviates the need for the preformation of various-sized GNPs, which is an indispensable step in many other approaches.     

牛血清蛋白质三维有序大孔材料

用胶体晶体为模板制备了牛血清白蛋白和异硫氰基荧光素标记的牛血清白蛋白的三维有序大孔材料. 表征了孔材料的结构和荧光发射光谱. 表明所制备的孔材料具有规整的三维有序孔结构, 荧光素标记的牛血清白蛋白三维有序大孔材料具有良好的荧光发射性质.     

Preparation of multilevel macroporous materials using natural plants as templates

A series of two-dimensionally (2D) ordered macroporous silica materials have been prepared by using eight natural plants as templates. The macroporous materials replicate the complicated morphologies of natural plants precisely, and retained the original pore shape of plants. Meanwhile, these macroporous materials showed roughly similar morphologies and pore structure by the same part of plants, while the distribution of macropore diameters is ca. 8–1,000 μm. It may provide a effective approach to prepare macroporous materials with different 2D pore and complicated morphologies. These 2D ordered macropore silica materials may have potentially application for tissue repairing and templates materials to produce other kinds of macropores or hierarchically porous materials.     

Three-dimensionally crossing manifold micro-mixer for fast mixing in a short channel length

In this study, we report a neo-conceptive three-dimensionally (3D) crossing manifold micromixer (CMM) embedded in microchannel. Fabricated by sequential processes of photolithography and two photon absorption stereolithography, this leads to a microfluidic system with a built-in micromixer in a site controlled manner. The effectiveness of CMM is investigated numerically and experimentally. Through the numerical simulation, it is estimated that a high mixing ratio of 90% can be obtained even in a channel length shorter than five times the channel width. This compares well with the conventional passive type of micromixers that have a gradual increase in mixing efficiency with the length of the channel. Furthermore, the mixing performance of the realized CMM built-in microchannel is observed by confocal microscopy.     

三维有序大孔二氧化钛表面超细钯纳米颗粒的构筑及其增强柴油炭烟催化燃烧性能（英文）

柴油机排放颗粒物(主要成分是炭烟)是城市大气PM2.5中一次颗粒物的主要来源和二次颗粒物形成的重要组分,严重危害大气环境和人类健康.利用颗粒物捕集器与催化剂相结合的连续过滤再生技术是满足柴油车国VI炭烟颗粒物排放标准的最有效技术,目前该技术所面临的挑战是研发在排气温度的柴油炭烟颗粒物催化氧化催化剂.柴油炭烟催化燃烧反应的本质是典型的气(氧气)-固(炭烟颗粒)-固(催化剂)三相深度氧化反应,因此我们研究组提出了高活性柴油炭烟燃烧催化剂设计应该遵循优化固-固接触与强化活化分子氧能力二者相结合的研究思路.为满足此设计思路的要求,本课题组前期采用孔径大于200 nm的三维有序大孔(3DOM)结构氧化物作为载体,利用大孔效应来实现PM在催化剂内部的有效扩散,从而提高催化剂与PM的接触效率.采用具有强活化分子氧能力的负载型贵金属(Au,Pt)纳米颗粒或贵金属-氧化物复合纳米颗粒作为活性位来提高催化剂对分子氧的活化能力,进而设计了多个系列高活性催化剂,并形成了担载贵金属纳米颗粒的可控制备方法与装置.然而,Au和Pt昂贵的价格限制了其广泛应用.价格相对便宜的Pd具有与Pt相似的催化性能,是其良好替代品.但是,目前关于3DOM氧化物表面负载型Pd纳米颗粒结构和尺寸与柴油炭烟催化燃烧性能之间的相关研究仍然较少.基于此,本文采用气泡辅助膜还原法制备了3DOM二氧化钛(TiO_2)担载超细Pd纳米颗粒催化剂.利用XRD,Raman,BET,SEM,TEM,ICP,XPS和H2-TPR等技术手段对催化剂进行表征,并以模拟柴油炭烟为研究对象,利用程序升温氧化反应(TPO)对催化剂的活性进行评价,深入探讨了催化剂的制备、结构及物化性质与炭烟催化燃烧反应性能之间的关系.XRD和Raman结果表明,TiO_2载体由锐钛矿(主)和金红石(次)两种物相组成.SEM照片显示,所制催化剂为规整的有序大孔结构,球形孔互相贯通,孔径均一,大孔腔平均尺寸为280 nm,孔窗尺寸为109 nm,这种三维有序大孔TiO_2的结构能够增强炭烟颗粒与催化剂之间的接触效率.TEM表征显示,平均粒径为1.1 nm的超细半球型Pd纳米颗粒高度分散于TiO_2载体的内壁上,两者间的优化界面面积有利于增加活化O2的活性位密度,这些活性位源于Pd与TiO_2间强相互作用.H2-TPR和XPS表征印证了上述观点,具有1.1 nm超细Pd颗粒的Pd/3DOM-TiO_2催化剂表现出强的低温氧化还原特性和丰富的表面吸附氧物种.在TPO测试中,相对于担载5.0 nm Pd颗粒的催化剂,具有1.1 nm尺寸超细Pd颗粒的Pd/3DOM-TiO_2催化剂展示了高的催化炭烟燃烧活性,T10,T50和T90分别为295,370和415 oC,且在5次TPO测试过程中表现出良好的催化和结构稳定性.这种具有3DOM结构和超细Pd纳米颗粒的纳米催化剂能够有效降低Pd的使用量,在催化炭烟燃烧的实际应用中大有潜力.     

氧氯化锆直接热分解制备三维有序大孔氧化锆

以聚苯乙烯微球胶晶为模板, 氧氯化锆的甲醇溶液为前驱物, 通过直接热分解的方法制备了三维有序大孔氧化锆(3DOM-ZrO2); 利用SEM、TEM、EDS和BET等技术对其进行了表征, 并探讨了实验条件对大孔结构与形态的影响. 结果表明, 过低或过高的氧氯化锆浓度都不利于形成长程有序的三维大孔结构; 增加填充次数只有在较高的氧氯化锆浓度下才能有效增加填充量; 合适的焙烧温度在600-700 ℃之间; BET分析表明3DOM-ZrO2孔壁具有非多孔结构, 与TEM观察结果非常一致.     

Facile fabrication of free-standing colloidal-crystal films by interfacial self-assembly

This paper reports a rapid and facile method of preparing free-standing colloidal crystals from monodisperse charged polystyrene (PS) microspheres. Mixed solvents (ethanol/water) were used as the dispersion medium in the self-assembly process of colloidal crystals. By a simple "floating self-assembly" method, PS microspheres floated on the surface of liquid and self-assembled into large area of three-dimensional (3D) ordered colloidal crystals within 15 min. Then epichlorohydrin was added in as a cross-linking agent to strengthen the colloidal-crystal film. After cross-linking reactions between the microspheres, the obtained colloidal-crystal film was free-standing and could be easily transferred to other substrates. Using tetrabutyl titanate as a titania precursor, 3D porous TiO(2) materials with rodlike skeletal structure were fabricated from the prepared free-standing colloidal crystal. This work provides a facile method to fabricate free-standing colloidal-crystal film, which can be used as an ideal template for the preparation of porous materials.     

单源MOF衍生具有三维有序大孔结构的氮掺杂碳包覆铁-氮合金复合材料用于高效氧还原

氧还原反应在一些能源转换系统如金属-空气电池中起着至关重要的作用.目前贵金属基材料(Pt/C)被认为是最有效的氧还原电催化剂,然而价格昂贵和储量有限等因素限制了它的商业化应用,因此探索高效的非贵金属氧还原电催化剂具有重要的意义.近年来,负载过渡金属铁的多孔碳催化剂由于独特的结构和优异的氧还原催化活性成为替代铂基催化剂最有潜力的候选者.该类材料的合成通常采用直接煅烧含有氮源、碳源和铁盐的混合前驱体的制备方法,但是热解时材料的多孔结构以及活性位点的均匀分布很难得到有效的控制.近年来,金属有机框架(MOFs)由于其多孔结构和组成可控等优点而经常被用作自牺牲模板来制备负载铁基纳米材料的多孔碳催化剂,并表现出优异的电催化活性.目前以MOF为前驱体制备高活性的载铁氮掺杂碳复合材料通常需要引入额外的氮源或铁源,因此选择氮含量丰富的铁基MOF材料作为单源前驱体制备载铁氮掺杂多孔碳复合材料具有重要的意义.除此之外,具有多级孔隙率的催化剂可以改善反应时的传质过程,同时有序交联的网络结构能够提供连续的电子传输.本文报道了一种简单可控的制备具有三维有序大孔结构的载铁氮掺杂多孔碳复合催化剂的合成方法,该材料表现出优异的电催化氧气还原性能和优异的催化稳定性.首先,以氮含量丰富的双氰胺和吡嗪配体所构筑的Fe-MOF作为前驱体,利用具有均一尺寸的聚苯乙烯微球作为造孔剂,合成得到了具有三维有序大孔结构的Fe-MOF前驱体,然后通过高温煅烧该单源前驱体制备得到具有三维有序大孔结构的氮掺杂多孔碳包覆铁-氮合金的复合型催化剂(3DOM Fe/Fe-NA@NC).扫描电镜和透射电镜结果表明,材料内形成了有序交联的大孔结构;氮气吸附测试表明,刻蚀之后材料的比表面积明显增加,结合分级多孔特性可以共同促进催化反应的传质过程.粉末X射线衍射结果证实了多孔碳材料中铁和铁-氮合金物种的成功合成.电化学测试结果表明,在0.1 M KOH电解液中,3DOM Fe/Fe-NA@NC-800催化剂表现出优于Pt/C的氧还原活性,其半波电位(E_1/2)为0.88 V,大于商业Pt/C的半波电位(E_1/2=0.85 V).同时,3DOM Fe/Fe-NA@NC-800表现出更加优异的稳定性,经过20000 s测试后,其电流保持率为94%,而Pt/C只保持了78%.关于活性位点探究的对比实验证明在所制备的复合材料中,铁物种作为高效的活性位点参与了电催化氧还原反应,与氮掺杂多孔碳之间的协同作用共同主导了3DOM Fe/Fe-NA@NC优异的氧还原活性.得益于其优异的氧还原活性,将其作为阴极活性材料组装为锌-空气电池进一步探究了其在实际应用中的可行性.本结果拓宽了高效的铁基催化剂的类型,同时也为制备封装非贵金属的多孔碳基催化剂提供了实验指导和理论依据.     

Inverse‐Opal Conducting Polymer Monoliths in Microfluidic Channels

Inverse opal monolithic flow‐through structures of conducting polymer (CP) were achieved in microfluidic channels for lab‐on‐a‐chip (LOC) applications. In order to achieve the uniformly porous monolith, polystyrene (PS) colloidal crystal (CC) templates were fabricated in microfluidic channels. Consequently, an inverse opal polyaniline (PANI) structure was achieved on‐chip, through a two‐step process involving the electrochemical growth of PANI and subsequent removal of the template. In this work the effect of CP electropolymerisation time on these structures is discussed. It was found that growth time is critical in achieving an ordered structure with well‐defined flow‐through pores. This is significant as these optimised porous structures will allow for maximising the surface area of the monolith and will also result in well‐defined flow profiles through the microchannel.     

Synthesis of Pd@graphene oxide framework nanocatalyst with enhanced activity in Heck-Mizoroki cross-coupling reaction

A new method was developed for producing a catalyst involving a Pd nanoparticle (NP) embedded in a graphene oxide framework (Pd@GOF) with ordered macro- and mesoporous structures. First, 5,5′-diamino-2,2′-bipyridine was selected as cross-linking for covalent modification of GO nanosheets to prepare a three-dimensional (3D) framework with interlayer spaces in which well-dispersed and ultra-small Pd NPs in situ grew and embedded the framework. The synthesized nanopores 3D Pd@GOF can act as nanoreactors to help the reaction substrates thoroughly come into contact with the surface of Pd NPs, thereby exhibiting high activity toward the Heck reaction, rarely reported concerning Pd NPs supported on one-side functionalized graphene. The Pd@GOF catalyst can be used 10 times without any significant loss in the catalytic activity, confirming the long-term stability of this catalyst. Therefore, the covalently assembled GOF was proposed as a universal platform for hosting noble metal NPs to construct the desired metal@GOF nanocatalyst with improved activity and stability that can be used in a broad range of practical applications.     

Facile fabrication of a rigid and chemically resistant micromixer system from photocurable inorganic polymer by static liquid photolithography (SLP)

Highly effective mixing in microchannels is important for most chemical reactions conducted in microfluidic chips. To obtain a rigid and chemically resistant micromixer system at low cost, we fabricated a Y-shaped microchannel with built-in mixer structures by static liquid photolithography (SLP) from methacrylated polyvinylsilazane (MPVSZ) as an inorganic polymer photoresist which was then converted to a silicate phase by hydrolysis in vaporized ammonia atmosphere at 80 °C. The microchannel incorporating herringbone mixer structures was bonded with a matching polydimethylsiloxane (PDMS) open channel which was pre-coated by perhydropolysilazane (PHPS)-based mixture, and finally treated by additional hydrolysis at room temperature to convert the PHPS layer to a silica phase. Finally, the chemical resistance of the microfluidic system with embedded micromixer was confirmed with various solvents, and the excellent mixing performance in a short mixing length of 2.3 cm was demonstrated by injecting two different colored fluids into the microchannel.     

Three-dimensionally ordered macroporous silicon films made by electrodeposition from an ionic liquid

Three dimensionally ordered macroporous (3DOM) silicon films have been made via ordered polystyrene (PS) templates by electrodeposition from an ionic liquid (IL). For this purpose, the ionic liquid 1-butyl-1-methylpyrrolidinium bis(trifluoromethylsulfonyl)amide ([Py(1,4)]Tf(2)N) with SiCl(4) dissolved in it was used as an electrolyte and the electrodeposition of macroporous silicon could be achieved at room temperature (~20 °C). Self-assembled PS colloidal crystals with different diameters were used as templates. Scanning electron microscopy and X-ray photoelectron spectroscopy confirm the quality of the samples, and the optical transmission measurement demonstrates that the 3DOM silicon film has a bandgap in the near infrared regime. Such a material has the potential to make 3DOM silicon feasible for electrical and optical applications.     

MCl_x(M=Pd,Fe,Cr)对有序介孔碳的辅助合成及其负载Pt后的电催化性能

以MClx(M=Pd,Fe,Cr;x=2,3,3)为金属源,辅助合成有序介孔碳(OMC),以改善其负载Pt后的电催化性能.X射线衍射(XRD)和透射电镜(TEM)测试结果显示,适量PdCl2的引入并未破坏介孔碳的有序结构,由于经历有机碳的高温裂解,OMC-PdCl2主要以金属Pd为存在形式,较为均一嵌入OMC的骨架中,并在负载Pt的过程中与Pt形成二元催化剂.电化学氢吸附-脱附测试结果表明,Pt/OMC-MClx表现出优异的催化性能,电化学活性面积为Pt/OMC的2-4倍;其中Pt/OMC-PdCl2最佳,活性面积达120.2m2.g-1,Pt/OMC-CrCl3和Pt/OMC-FeCl3次之.此外,Pt/OMC-MClx还具有良好的催化稳定性,经100个循环测试后,依然保持较高的催化活性,仅衰减22%-40%,使得该材料在催化领域具有很好的应用前景.     

单分散聚苯乙烯乳胶有序膜在二氧化硅多孔材料制备中的模板作用

自然界中许多物质经千万年发展进化,具有特殊结构,决定了它们具有奇异特性.人们对此过程非常关注,试图了解其结构性能关系,从而实现人工合成,仿生学应此而产生.比如天然蛋白石能呈现出鲜艳颜色,其原因在于单分散二氧化硅微球与具有选择性吸收光的某些金属氧化物微粒形成了有序的超晶格结构[1].为了模拟此过程,人们以单分散二氧化硅或聚苯乙烯微粒形成的胶体晶作为模板,实现蛋白石的人工合成[2].可以说,模板合成技术是制备有序材料的有效手段.本文以单分散聚苯乙烯乳胶室温形成的有序膜为模板,采用快速溶胶凝胶方法,制备了聚苯乙烯/二氧化硅…     

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．