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1.
在MgAl水滑石的合成体系中引入不同量的葡萄糖,得到了系列C/MgAl水滑石复合材料。该复合材料经550℃焙烧后,形成MgAl复合金属氧化物。该MgAl复合金属氧化物在含水的反应体系中可原位活化形成插层阴离子为OH-的MgAl水滑石催化剂(meixnerite)。采用XRD、N2吸附、元素分析和碱性能测试等手段对所制meixnerite催化剂的物化性能进行了表征。结果表明,以C/MgAl水滑石复合材料为前驱物所制备的meixnerite催化剂,较以常规的MgAl水滑石为前驱物所制催化剂具有较高的比表面和更多可接近的碱性位。这些特征使以C/MgAl水滑石复合材料为前驱物所制备的meixnerite催化剂在柠檬醛-丙酮缩合反应中的催化活性高于常规的以MgAl水滑石为前驱物所制备的催化剂。此外,本文还对合成体系中葡萄糖的引入量和反应条件对所制催化剂的催化性能的影响进行了考察。  相似文献   

2.
钴铝和锌铝水滑石的合成   总被引:1,自引:0,他引:1  
采用低过饱和共沉淀法合成了一系列锌铝和钴铝水滑石,其结构经IR和XRD表征。研究结果表明,两类水滑石晶体结构相似;钴铝水滑石的稳定性高于锌铝水滑石。  相似文献   

3.
镁铝类水滑石的合成、表征及其催化丙酮缩合性能   总被引:1,自引:0,他引:1  
采用共沉淀-水热法合成了一系列的类水滑石样品.用XRD、TEM等表征了合成样品的结构及表面形貌;用NH3-TPD、CO2-TPD测试样品表面酸碱性质,优化了镁铝水滑石的合成条件,重点考察了镁铝比对合成样品晶形的影响和样品表面酸碱性变化的规律,阐述了层板上原子配位分布的微观结构,以及不同镁铝比的类水滑石在催化丙酮缩合制备双丙酮醇反应中催化性能.  相似文献   

4.
类水滑石催化酯交换反应活性、寿命及失活原因研究   总被引:7,自引:0,他引:7  
王庶  于琴琴  黄金明  白荣献  李光兴 《化学学报》2005,63(17):1575-1580
研究了5种不同阳离子组合的类水滑石对碳酸二甲酯与苯酚酯交换反应的催化活性和ZnAl, MgAl水滑石的使用寿命. 结果显示, 类水滑石的催化性能与组成的阳离子性质有关: 三价阳离子的性质影响类水滑石的催化活性高低, 二价阳离子的性质则影响其使用寿命长短. 通过对失活原因的研究发现, 特征的层状结构形式是类水滑石具有活性的关键: 层状结构塌陷, 活性随之消失; 层状结构稳定, 使用寿命长. 当苯酚与碳酸二甲酯的摩尔比为2∶1, 催化剂的质量分数为原料总质量的1%, 反应时间8 h时, MgAl水滑石具有最优的催化性能: 碳酸二甲酯转化率51.8%, 酯交换产物选择性94.2%, 5次循环使用后催化活性保持稳定. 其催化性能明显优于文献报道的其它相关固体催化剂.  相似文献   

5.
Mg-Zn-Al三金属类水滑石的合成及其复合氧化物的催化性能   总被引:4,自引:0,他引:4  
水滑石([Mg_6Al_2(OH)_(16)[CO_3·4H_2O)是一种类似于水镁石结构的层状阴离子黏土,其骨架为阳离子,层间为阴离子。如改变骨架中的金属阳离子或在层间引入不同的阴离子,就可形成各种新组成的类水滑石。水滑石对有机分子反应具有较高的催化活性和选择性,且可以作为复合氧化物催化剂的前体,应用广泛。它作为碱催化剂,可用于醇醛缩合;作为氧化还原催化剂,用于水煤气转化、NO的还原、甲烷氧化反应等犤1,2犦。作为一种具有特殊结构的化合物,各种双金属组分的水滑石或类水滑石的合成、性质与应用已受到广泛的重视犤3…  相似文献   

6.
通过低过饱和共沉淀方法合成了含铜锰的三元水滑石,并且对其进行了XRD,FT-IR和TG表征.XRD结果表明所合成的样品具有类似水滑石的层状结构.FT-IR红外表征结果表明所合成的样品具有相似的结构及表面吸附性质,而且样品的水滑石结构随着晶化时间的延长而变得更加完整,TG表征也显示了相同结果.实验表明:锰的加入和水滑石的特有晶体结构是苯甲醇无溶剂催化氧化的两个必要条件.  相似文献   

7.
镁铝型水滑石水热合成   总被引:37,自引:1,他引:37  
谢晖  矫庆泽  段雪 《应用化学》2001,18(1):70-0
水滑石是一类具有特殊结构的层状无机材料 .具有可调变的组成及独特的结构和性能 ,在离子交换、吸附分离、催化、医药等领域得到广泛应用 [1~ 4 ] .特别是水滑石类材料所具有的选择性、红外吸收性和离子交换性等一些特殊性能 ,使其作为新型无机功能材料已应用于 PE农膜 (保温剂 )和 PVC(无毒热稳定剂 )等高分子材料中 ,显示了独特的性能[5] .作为无机功能材料 ,水滑石在复合材料中的应用必然涉及其粒子尺寸和分布 ,因此对水滑石晶化规律的研究非常重要 .水滑石成熟的合成方法是共沉淀法[6] ,如单滴法、双滴法 .由于沉淀粒子是渐次产生 ,…  相似文献   

8.
柱水滑石(Ⅰ)ZnAl-La(TiW11)2的合成、表征及其催化性能;稀土杂多配离子;柱撑水滑石;合成;表征;催化性能  相似文献   

9.
类水滑石及其杂多阴离子柱撑物的合成与表面酸性研究   总被引:1,自引:0,他引:1  
合成了一些类水滑石和过渡金属取代型杂多酸盐,并由此制备了相应杂多阴离子柱撑水滑石层柱材料。用XRD,IR和元素分析等手段对合成产物进行组成和结构表征,用NH3-TPD,Py-IR研究了合成产物的表面酸性和酸类型,并在异丙醇反应中考察了合成物的酸碱催化行为,结果表明,水滑石和柱撑水滑石均同时存在酸碱中心,且酸碱相对强度与柱阴离子类型密切相关。杂多阴离子进入水滑石层,同时改变了水滑石和杂多酸盐的酸强度  相似文献   

10.
均匀沉淀法直接合成有机阴离子柱撑水滑石   总被引:6,自引:1,他引:6  
以尿素为沉淀剂用均匀沉淀法直接合成有机阴离子柱撑水滑石(Layered Double Hydroxides,LDH)及CoAl水滑石等,并用XRD,FT—IR,TGA,TEM等分析手段对所合成的水滑石进行了表征.结果表明,尿素均匀沉淀法可以直接合成有机阴离子柱撑水滑石及CoAl水滑石等,并且可以方便地消除原料中阴离子的干扰,是合成有机阴离子柱撑水滑石及CoAl水滑石等的一个简便快速的新方法。  相似文献   

11.
龙霞  王亚琼  鞠敏  王政  杨世和 《应用化学》2018,35(8):881-889
过渡金属基层状双羟基化合物(transition metals based layered double hydroxides,TM LDHs)由于大的比表面积,开放的微观结构,可调的层间距和化学成分等优势,近年来被广泛应用于催化领域。 本综述文章将集中介绍TM LDH在电催化水氧化中的应用,从其化学成分和微观结构的调控两方面入手,详述TM LDH具有优异催化水性能的原因,并对其催化性能未来进一步的可能发展进行展望。  相似文献   

12.
采用离子交换法合成了不同Mg/Al物质的量比的12-磷钨酸(H_3PW_(12)O_(40),HPW)插层水滑石(LDHs),采用XRD、FT-IR、Raman、ICP-AES、TG-DSC等分析手段表征其物化性质,Hammett指示剂-正丁胺滴定法测定其酸强度和酸量分布。进一步将其用于原油催化酯化脱酸反应,并与NO_3型LDHs对比,探讨酯化活性与催化剂性质之间的关系。结果表明,催化剂的活性主要受酸性和比表面积的影响。HPW插层LDHs的酯化活性明显优于NO3型LDHs,归因于增强的酸性和增大的比表面积。对于弱酸性的NO_3型LDHs,酯化活性与比表面积呈正向关系,Mg/Al物质的量比为4时,具有最大的比表面积和脱酸活性。而对于较强酸性的HPW插层LDHs,酯化活性主要受到酸量的影响,Mg/Al物质的量比为2的催化剂具有最高的酸量和脱酸活性。  相似文献   

13.
This report surveys the recent development of layered double hydroxides (LDHs) as catalytic materials, which have attracted considerable attention in the past decade. A major challenge in the rapidly growing field is to improve the functionalities of these materials. Therefore, this article is mainly focused on the lately reported design and synthesis strategies for LDH materials and their catalytic applications as actual catalysts, catalyst precursors and catalyst supports.  相似文献   

14.
LDHs(1ayered double hydroxides)是一类结构可调的阴离子层状及插层结构功能材料,近些年来在催化领域得到了广泛的关注.本文综述了有关LDHs材料构筑原则的理论研究、组装方法及其在多相催化领域应用的最新进展.  相似文献   

15.
Single-atom catalysts(SACs) have attracted much attention for their superior catalytic performance in various fields. It has been widely accepted that the selection of appropriate substrates is crucial to the fabrication and application of SACs. Layered double hydroxides(LDHs) have been developed as one of the promising substrates for single-atoms due to their unique adjustable supramolecular structures. In this review, we comprehensively sort out the research of SACs based on LDHs. By analyzing the characteristics of LDHs and the single-atoms, respectively, the preparation strategies of SACs by using LDHs are summarized. Their applications as efficient catalysts in electrocatalysis, photocatalysis and thermal catalysis are then discussed. Finally, we summarize the opportunities and challenges for the rational design and application expansion of SACs based on LDHs in the future.  相似文献   

16.
The calcined Mg‐Al layered double hydroxides (LDHs) with a Mg/Al molar ratio of 3:1 were synthesized and characterized thoroughly by X‐ray diffraction (XRD), temperature‐programmed desorption (TPD) of CO2, and thermogravimetric analysis (TGA). Thus the calcined Mg‐Al LDHs were used as catalyst for the catalytic synthesis of disubstituted ureas from amines and CO2. The effects of reaction time, reaction temperature, pressure, solvent and calcined temperature on activity have been investigated. The results indicated that aliphatic amines, cyclohexylamine and benzylamine can be converted to the corresponding ureas selectively over the calcined Mg‐Al LDHs catalysts with N‐methyl‐2‐pyrrolidone (NMP) as solvent without using any dehydrating regent. The catalyst can be recycled several times with only slight loss of activity.  相似文献   

17.
阴离子层状材料的可控制备   总被引:5,自引:0,他引:5  
LDHs (layered double hydroxides)是一类具有相同结构、不同物理化学性质的阴离子层状无机功能材料,作为催化剂、催化剂载体和催化剂前驱体在催化领域得到了广泛的关注. 本文综述了LDHs制备技术的最新发展,并从粒径控制、结晶度控制、形貌控制、含贵金属LDHs以及原位固载化等方面详细讨论了LDHs的可控制备技术.  相似文献   

18.
《Journal of Energy Chemistry》2017,26(6):1094-1106
The explore and development of electrocatalysts have gained significant attention due to their indispensable status in energy storage and conversion systems, such as fuel cells, metal–air batteries and solar water splitting cells. Layered double hydroxides(LDHs) and their derivatives(e.g., transition metal alloys, oxides, sulfides, nitrides and phosphides) have been adopted as catalysts for various electrochemical reactions, such as oxygen reduction, oxygen evolution, hydrogen evolution, and CO_2 reduction, which show excellent activity and remarkable durability in electrocatalytic process. In this review, the synthesis strategies, structural characters and electrochemical performances for the LDHs and their derivatives are described. In addition, we also discussed the effect of electronic and geometry structures to their electrocatalytic activity. The further development of high-performance electrocatalysts based on LDHs and their derivatives is covered by both a short summary and future outlook from the viewpoint of the material design and practical application.  相似文献   

19.
挥发性有机化合物(VOCs)是大气颗粒污染物(PM2.5)和臭氧污染的主要前体物,来源于工业活动(如溶剂使用过程)、汽车尾气以及植物排放等,具有毒性,对人类和自然生命产生危害.催化氧化技术是在催化剂表面,在较低的操作温度(200-450℃)下,将VOCs非均相催化氧化成CO2和H2O,是一种最为有效的分解VOCs的方法,具有副产物少,能耗低的优点.VOCs分解用催化剂主要分为贵金属和金属氧化物两大类.贵金属催化剂活性高,但价格昂贵.因此科研工作者一直在诸多方面调控过渡金属氧化物,例如制备方法、组分协同、结构缺陷等,期望获得高活性、低成本的催化剂.水滑石(LDHs)是一种层状双金属氢氧化物,由带正电荷的金属氢氧化物层板和层间阴离子组成,可以表示为[M1-x2+Mx3+(OH)2](An-)x/n·mH2O.鉴于LDHs特有的结构特点,层板元素可调、比...  相似文献   

20.
This work described the application of Co–Mn–Fe hydrotalcites (Co–Mn–Fe LDHs) as heterogeneous catalysts for Fenton reaction process. The Co–Mn–Fe LDHs were synthesized by the co-precipitation method and were characterized by X-ray diffractometry (XRD), infrared spectroscopy (IR), zeta potential, and BET surface area measurement. The catalytic activity of different kinds of hydrotalcites was evaluated by the degradation of Direct Scarlet 4BS (4BS). The Co–Mn–Fe LDHs showed the best catalytic performance among four catalysts. The presence of the Mn2+/Mn3+ at surface of catalyst could accelerate the reduction of Co3+–Co2+, and then increased in the catalytic activity of the Co–Mn–Fe LDHs. The effect of initial pH, catalyst dosage, dye concentration, and reaction temperature on the degradation of 4BS had been investigated. Radical reaction mechanism was proposed by the addition of radical scavenger. The degradation kinetic followed pseudo-first-order model. The activation energy of Co–Mn–Fe LDHs was determined to be 37.3 kJ/mol. The catalytic activity of Co–Mn–Fe LDHs was maintained after four cycles of reaction, which proved the reusability of catalyst. Finally, the possible reaction mechanisms involved in the heterogeneous Fenton system were proposed.  相似文献   

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