会员体验
专利管家(专利管理)
工作空间(专利管理)
风险监控(情报监控)
数据分析(专利分析)
侵权分析(诉讼无效)
联系我们
交流群
官方交流:
QQ群: 891211   
微信请扫码    >>>
现在联系顾问~
热词
    • 5. 发明授权
    • Method for preparing a highly active, unsupported high surface-area MoS2 catalyst
    • 制备高活性,未负载的高表面积MoS2催化剂的方法
    • US06451729B1
    • 2002-09-17
    • US09687046
    • 2000-10-13
    • Chunshan SongYoshiharu YoneyamaMadhusudan Reddy Kondam
    • Chunshan SongYoshiharu YoneyamaMadhusudan Reddy Kondam
    • B01J2705
    • B01J27/051C01G39/06
    • The present invention is a new and simple method of decomposing ammonium tetrathiomolybdate (ATTM) in an organic solvent with added water under H2 pressure. Model compound reactions of 4-(1-naphthylmethyl)bibenzyl (NMBB) were carried out at 350-425° C. under H2 pressure in order to examine the activity of the Mo sulfide catalysts generated from ATTM with and without added water for C—C bond cleavage and hydrogenation of aromatic ring. The Mo sulfide catalysts generated from ATTM with added water were much more effective for C—C bond cleavage and hydrogenation of aromatic moieties at 350-425° C. than those from ATTM alone. Two-step tests revealed that the addition of water is effective for generating highly active Mo sulfide catalyst from ATTM, but water itself does not promote catalytic conversion. Removal of water after the decomposition of ATTM with added water at 350-400° C. under H2 pressure by hot purging gives highly active Mo sulfide catalyst.
    • 本发明是一种在H2压力下加入水分解有机溶剂中四硫代钼酸铵(ATTM)的新型简单方法。 在氢气压力下,在350-425℃下进行4-(1-萘基甲基)联苄(NMBB)的模型化合物反应,以检查由ATTM生成的硫化钼催化剂的活性,并且没有添加水用于CC键 芳环的裂解和氢化。 从ATTM生成的添加水的Mo硫化物催化剂在350-425℃比单独的ATTM对C-C键断裂和芳烃部分氢化更有效。 两步测试表明,添加水对于从ATTM产生高活性的硫化钼催化剂是有效的,但是水本身不能促进催化转化。 通过热吹扫在氢气压力下,在350-400℃下加入水分解ATTM后除去水分,得到高活性的硫化钼催化剂。
    • 7. 发明授权
    • Method for preparing a highly active, unsupported high-surface-area      ub
.
MoS.s2 catalyst
    • 制备高活性,未负载的高表面积MoS2催化剂的方法
    • US6156693A
    • 2000-12-05
    • US413121
    • 1999-10-06
    • Chunshan SongYoshiharu YoneyamaMadhusudan Reddy Kondam
    • Chunshan SongYoshiharu YoneyamaMadhusudan Reddy Kondam
    • B01J27/051C01G39/06B01J27/05C01B17/00
    • B01J27/051C01G39/06
    • The present invention is a new and simple method of decomposing ammonium tetrathiomolybdate (ATTM) in an organic solvent with added water under H.sub.2 pressure. Model compound reactions of 4-(1-naphthylmethyl)bibenzyl (NMBB) were carried out at 350-425.degree. C. under H.sub.2 pressure in order to examine the activity of the Mo sulfide catalysts generated from ATTM with and without added water for C--C bond cleavage and hydrogenation of aromatic ring. The Mo sulfide catalysts generated from ATTM with added water were much more effective for C--C bond cleavage and hydrogenation of aromatic moieties at 350-425.degree. C. than those from ATTM alone. Two-step tests revealed that the addition of water is effective for generating highly active Mo sulfide catalyst from ATTM, but water itself does not promote catalytic conversion. Removal of water after the decomposition of ATTM with added water at 350-400.degree. C. under H.sub.2 pressure by hot purging gives highly active Mo sulfide catalyst.
    • 本发明是一种在H2压力下加入水分解有机溶剂中四硫代钼酸铵(ATTM)的新型简单方法。 在氢气压力下,在350-425℃下进行4-(1-萘基甲基)联苄(NMBB)的模型化合物反应,以便检测由ATTM生成的硫化钼催化剂的活性,并且不加入水分用于CC键 芳环的裂解和氢化。 由ATTM生成的添加水的Mo硫化物催化剂在350-425℃比单独的ATTM对C-C键断裂和芳烃部分氢化更有效。 两步测试表明,添加水对于从ATTM产生高活性的硫化钼催化剂是有效的,但是水本身不能促进催化转化。 在氢气压力下通过热吹扫在350-400℃加入ATTM分解后除去水,得到高活性的硫化钼催化剂。
    • 8. 发明授权
    • Zeolite-catalyzed isomerization of sym-octahydrophenanthrene to
sym-octahydroanthracene
    • 对称八氢菲的沸石催化异构化与对映八氢蒽
    • US5523505A
    • 1996-06-04
    • US290648
    • 1994-08-15
    • Chunshan Song
    • Chunshan Song
    • C07C5/27C07C5/22
    • C07C5/2708C07C2103/24C07C2529/08
    • An environmentally benign catalytic process for the production of sym-octahydroanthracene (sym-OHA) from sym-octahydrophenanthrene (sym-OHP) by ring-shift isomerization. Proton-form moralenite or partially dealuminated proton-form mordenite are effective catalysts for the selective formation of sym-OHA from sym-OHP. Y-zeolite and metal-ion exchanged Y-zeolites display lower selectivity towards Sym-OHA. The use of certain solvents can further improve the performance of the Y-zeolites and mordenites, particularly the selectivity of Y-zeolite catalysts. The sym-OHA is an useful product and can be converted by existing methods to various anthracene derivatives which are industrial chemicals in demand.
    • 通过环移异构化从sym八氢菲(sym-OHP)生产对称八氢蒽(sym-OHA)的环境友好的催化方法。 质子形式的光子沸石或部分脱铝的质子型丝光沸石是从sym-OHP选择性形成sym-OHA的有效催化剂。 Y-沸石和金属离子交换的Y-沸石对Sym-OHA的选择性较低。 使用某些溶剂可以进一步提高Y-沸石和丝光沸石的性能,特别是Y-沸石催化剂的选择性。 sym-OHA是一种有用的产品,可以通过现有方法转化为需要的工业化学品的各种蒽衍生物。