Nanosized cobalt-based catalyst prepared by supercritical phase condition for Fischer-Tropsch synthesis

A series of nanosized Co/Zn/Mn/K composite catalysts for Fischer-Tropsch synthesis （FTS） were prepared by supercritical fluid drying （SCFD） method and common drying （CD） method. The nanosized cobalt-based catalysts were characterized by XRD, TEM and BET techniques. Their catalytic performances were tested in a slurry-bed reactor under FTS reaction conditions. The drying and crystallization were carried out simultaneously during SCFD, therefore, the catalysts prepared by SCFD method have ideal structure and show the FTS performance superior to the others prepared by CD method. The FTS activity and selectivity were improved via adding Zn, Mn and K promoters, and less CH4 and CO2 as well as higher yield of C5＋ products were achieved. The optimal performance of a 92% CO conversion and a 65% C5＋ product yield was obtained over a catalyst with the component of Co/Zn/Mn/K = 100/50/10/7. Furthermore, the catalytic performance was studied under the conditions of liquid-phase and supercritical phase slurry-bed, and C5＋ product yield were 57.4% and 65.4%, respectively. In summary, better catalytic performance was obtained using the nanosized catalyst prepared by SCFD method under supercritical reaction conditions, resulting in higher conversion of CO, less CO2 byproduct, and higher yield of C5＋ products.

Preparation and Characterization of Titania Microspheres and Their Application in a Liquid Chromatography Stationary Phase

Titania microspheres were synthesized using hydrothermal methods to exploit a new liquid chromatography stationary phase. The prepared titania microspheres were approximately 7 μm in diameter, and the particle size distribution was relatively narrow and uniform. Furthermore, the average specific surface area was 276.0 m2·g·1, the average pore volume was approximately 0.25 mL·g·1, and the pore diameter was approximately 35.9 nm for sintering titania microspheres. These parameters indicate that the titania microspheres prepared for this study have excellent surface properties for chromatography. Additionally, columns filled with the titania microspheres were able to separate basic compounds, including benzene, nitrobenzene and o-nitroanisole. It could be proposed that the titania microspheres prepared for this study would be a promising stationary phase for liquid chromatography.

疏水载体辅助液相多肽合成与固相多肽合成工艺的比较

目的分别采用两种液相多肽合成法和固相多肽合成(SPPS)法对具有抗病毒活性的多肽RC-12进行合成工艺研究,通过工艺比较分析以研究其潜在的商业价值。方法分别采用Tag-OH液相法、BDK-OH液相法及SPPS法合成抗病毒多肽RC-12,并对三种不同的合成工艺进行物料消耗量、“三废”产生量、收率比较。结果比较Tag-OH液相法和BDK-OH液相法,两种方法的收率相差不大且都优于SPPS法;BDK-OH液相法物料消耗量和“三废”产生量高于Tag-OH液相法,但都远远低于SPPS法。结论Tag-OH液相法对合成多肽RC-12具有较好的工业研究意义和潜在的商业价值。

液相合成纳米TiO_2的进展

综述了液相法合成纳米TiO2粉体的各种方法,评述了液相沉淀法、水解法、溶胶-凝胶法、水热法、微乳液法和液相一步合成法的制备工艺及特点,并指出液相一步合成法在常压低温下就能合成团聚小、单分散性好和光催化活性高的金红石相纳米TiO2粉体,此生产工艺由于省去了高温焙烧工序而最具竞争力。

纳米二氧化钛的液相合成

纳米二氧化钛因其化学性质稳定、难溶、无毒、无迁移性、成本低廉且具有光敏、气敏、压敏等特性,从而在电子陶瓷、半导体、催化剂、护肤品、效应颜料和传感材料等领域有着重要的应用。本文较深入地分析了溶胶-凝胶法、沉淀法、水解法、微乳液法和胶溶法等液相方法的特点以及它们的工业化新进展。在合成TiO_2的三大类工艺(气相法、液相法与高能球磨法)中,液相合成方法是最简单易行的工艺。

纳米TiO_2的液相合成方法

液相合成工艺是大规模低成本地制备纳米TiO2 粉体的必由之路。本文深入地分析了纳米TiO2 的几种主要液相合成方法的特点 ,并介绍了它们的研究新进展 ,旨在为改进现有的液相合成工艺 ,探索粉体质量好、工艺简便且易于大规模工业化生产。

纳米技术与纳米材料(Ⅸ)——纳米TiO_2的液相合成

综述了液相法合成纳米TiO2,比较了各种液相法的优缺点,详细讨论了液相法合成纳米TiO2的研究进展和发展趋势。认为以TiCl4、TiOSO4和H2TiO3为原料时,产品成本较低。低温液相合成纳米TiO2的生产工艺由于省去了高温煅烧工序而最具竞争力。并指出过滤和防团聚是液相法规模化生产纳米TiO2需要重点解决的问题。

纳米二氧化钛粉的水热合成与光催化性能研究

以钛酸四丁酯（TBOT）为钛源,NH4Cl为分散剂,不经高温煅烧,直接低温水热合成纳米TiO2粉。采用FT-IR,XRD,TEM等方法研究了低温高压水热条件和NH4Cl浓度对TiO2粉的相组成、组织形貌的影响,并研究了其对甲基橙光催化降解的性能。结果表明,纳米TiO2具有锐钛矿相结构且无有机物残留。晶粒尺寸随着水热合成温度增高（120-180℃）而增大,随着NH4Cl/TBOT的摩尔比（0.1-0.5）增加而减小,但纳米粉逐渐出现团聚现象。水热温度为160℃以及NH4Cl/TBOT=0.25条件下合成的锐钛矿相纳米TiO2具有良好的分散性,其颗粒尺寸约为14 nm,且有高的光催化降解甲基橙的能力。

不同晶型纳米二氧化钛的水热合成

水热法合成了不同晶型、形貌和大小的纳米二氧化钛。利用X射线衍射(XRD)和透射电镜(TEM)对所得的样品进行了表征。研究了pH值、水热反应温度和水热反应时间对纳米二氧化钛晶型、形貌和晶粒尺寸的影响。结果表明,前驱体pH值是决定产品晶型、晶粒尺寸和形貌的主要因素。随着水热反应温度的升高,纳米二氧化钛的晶粒尺寸逐渐变大,但pH=3.0时所形成的锐钛矿型纳米二氧化钛的晶粒尺寸却几乎不变;随着水热反应时间的延长,金红石型纳米二氧化钛晶粒的生长速度最快,而锐钛矿型的纳米二氧化钛的晶粒生长速度则最慢。

液相法合成纳米TiO_2的进展

综述了液相法合成纳米TiO2 的制备方法 ,评价了各种方法的优缺点 。

低温液相制备金红石型TiO_2纳米晶须

By using a simply liquid phase method at a low temperature, rutile TiO 2 nanowhiskers were successfully prepared from TiCl 4 aqueous solution at 70 ℃ after aging for 11 d. The obtained TiO 2 nanowhiskers were characterized by means of TEM,HRTEM and XRD. The results show that the nanowhiskers are rutile crystals growing along c-axis direction with a length of 100150 nm and a diameter 68 nm. The simple fabrication method of TiO 2 nanowhiskers will promote practical application of 1D TiO 2.

几种主要的纳米粉末制备技术

介绍了机械法、液相合成法和气相合成法三类纳米粉末制备技术,并对这些制备技术的原理、特点、发展状况及优缺点进行了比较,对今后的发展也提出了建议。

沉淀还原法制备高性能CO_2加氢合成甲醇Cu/ZnO/Al_2O_3催化剂

A novel coprecipitation-reduction process has been proposed for preparing highly selective Cu/ZnO/Al 2O 3 catalysts for methanol synthesis from CO 2 hydrogenation. Compared to the catalysts prepared by the conventional method, the new catalysts prepared via the new method exhibit much higher BET surface area and pore size, much smaller crystallite size and higher catalytic activity and selectivity in CO 2 hydrogenation to methanol. It is also found that the molar ratio of Cu + to Cu 0 on the surface of the catalyst obtained by coprecipitation-reduction is much higher than that on the reduced catalyst obtained by the conventional method, which could be crucial for its high activity and selectivity for catalytic hydrogenation of CO 2 to methanol.

SAPO-34制备方法研究进展

综述了近年来SAPO-34分子筛制备方法的研究进展,介绍了超声处理、微波加热等技术在SAPO-34分子筛制备过程中的应用及原位合成、固相合成、气相合成和离子液体合成等新型制备方法。指出在不影响SAPO-34分子筛催化性能的前提下,降低合成低成本、减少环境污染、节水降耗是SAPO-34分子筛今后的开发方向。

纳米粉体的液相制备方法

介绍了几种纳米粉体的液相制备方法及其技术特点 ,评价了这几种方法的优缺点 ,并指出了在液相法合成纳米粉体研究中存在的问题和发展方向。

纳米二氧化钛制备工艺研究进展

介绍了国内纳米二氧化钛微粒的多种制备工艺,重点论述了液相法制备纳米二氧化钛的相关技术的优缺点及工艺进展。指出未来工艺的发展方向应以降低成本、提高分散性、表面改性为重点。

纳米Cu_2O花的制备及其光学性质研究

以Cu(CH3COO)2.H2O为原料,CTMAB(十六烷基三甲基溴化铵)和NaOH为添加剂,NaBH4为还原剂,通过液相法在低温(60℃)的条件下分步合成了纳米Cu2O花。采用XRD、SEM、TEM和紫外–可见吸收光谱分析等手段对纳米Cu2O花进行了表征。结果表明,纳米Cu2O花的生长过程符合成核–溶解–再结晶的机制。对照实验发现,NaOH和CTMAB的浓度对最终纳米花的形成起了关键性的作用。

SnO_2纳米晶体的液相法可控合成研究进展

SnO2纳米晶体广泛应用于电极材料、气敏材料及催化材料。概述了纳米SnO2结构液相法可控合成技术的研究现状及进展,重点介绍了均匀沉淀法、微乳液法、溶胶-凝胶法和水热法4种主要合成方法,并结合各种方法的特点对其在纳米SnO2各应用领域的发展前景进行了分析。

片状氧化铝的发展历程与应用前景

片状氧化铝因其独特的二维片状结构和较大的径厚比而成为无机非金属材料领域的研究热点之一。本文详细的介绍了片状氧化铝的物化性质及其应用前景,对以往研究片状氧化铝的经典实验研究方法和国内外的最新科研进展进行了综述,并系统地对其制备方法的优缺点进行了评价。

合成榍石的研究现状

榍石是一种稳定的矿物,是人造岩石固化高放射性废弃物较理想的基材之一。本文中从榍石的结构、性质及合成方法等方面进行全面的综述,同时对合成榍石的最新进展进行评述并展望了榍石在高放射性废弃物固化处理中的应用前景,为相关的研究工作提供参考依据。