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
    • 1. 发明授权
    • Synthesis of microporous ceramics
    • 微孔陶瓷的合成
    • US06624228B1
    • 2003-09-23
    • US08668640
    • 1996-06-21
    • John Pickett DismukesJack Wayne JohnsonEdward William Corcoran, Jr.Joseph Vallone
    • John Pickett DismukesJack Wayne JohnsonEdward William Corcoran, Jr.Joseph Vallone
    • C08K334
    • C04B38/0022C04B35/56C04B38/0058C04B35/58
    • The present invention provides for microporous ceramic materials having a surface area in excess of 50 m2/gm and an open microporous cell structure wherein the micropores have a mean width of less than 20 Angstroms and wherein said microporous structure comprises a volume of greater than about 0.015 cm3/gm of the ceramic. The invention also provides for a preceramic composite intermediate composition comprising a mixture of a ceramic precursor and finely divided particles comprising a non-silicon containing ceramic, carbon, or an inorganic compound having a decomposition temperature in excess of 400° C., whose pyrolysis product in inert atmosphere or in an ammonia atmosphere at temperatures of up to less than about 1100° C. gives rise to the microporous ceramics of the invention. Also provided is a process for the preparation of the microporous ceramics of the invention involving pyrolysis of the ceramic intermediate under controlled conditions of heating up to temperatures of less than 1100° C. to form a microporous ceramic product.
    • 本发明提供具有超过50m 2 / gm的表面积的开孔微孔结构,其中微孔具有小于20埃的平均宽度的微孔陶瓷材料,并且其中所述微孔结构包括更大的体积 大于约0.015cm 3 / gm的陶瓷。 本发明还提供了一种预陶瓷复合中间体组合物,其包含陶瓷前体和包含非硅含量陶瓷,碳或分解温度超过400℃的无机化合物的细碎颗粒的混合物,其热分解产物 在惰性气氛中或在高达少于约1100℃的氨气氛中,产生本发明的微孔陶瓷。 还提供了制备本发明的微孔陶瓷的方法,其包括在加热至低于1100℃的温度的受控条件下陶瓷中间体的热解,以形成微孔陶瓷产品。
    • 5. 发明授权
    • Pyrolysis of ceramic precursors to nanoporous ceramics
    • 陶瓷前体热解为纳米多孔陶瓷
    • US5872070A
    • 1999-02-16
    • US778531
    • 1997-01-03
    • John Pickett DismukesJack Wayne JohnsonJames L. Pizzulli
    • John Pickett DismukesJack Wayne JohnsonJames L. Pizzulli
    • C01B33/12C04B38/00C04B38/06
    • C04B38/0022Y10S977/831
    • The present invention provides for amorphous, nanoporous, ceramic material having a surface area in excess of 70 m.sup.2 /gm and characterized by a high content of open microporous cell structure wherein the micropores have a mean width of less than 20 Angstroms and wherein said microporous structure comprises a volume of greater than about 0.03 cm.sup.3 /gm of the ceramic. The invention also provides a process for the preparation of such nanoporous ceramics wherein a ceramic precursor polymer or oligomer is gradually heated in the presence of an inert gas or vacuum up to a maximum temperature in the range of greater than 400.degree. C. up to about 650.degree. C. Optionally, the process may also include a crosslinking step conducted prior to the heating step wherein the precursor polymer or oligomer is heated in the presence of a crosslinking agent capable of undergoing addition or substitution reactions with backbone atoms present in said precursor material, at an intermediate temperature of about 100.degree. to 400.degree. C. for a period of time sufficient to crosslink said precursor material, followed by pyrolysis of the crosslinked material.
    • 本发明提供了具有超过70m 2 / gm的表面积的无定形纳米多孔陶瓷材料,其特征在于高含量的开孔微孔孔结构,其中微孔具有小于20埃的平均宽度,并且其中所述微孔结构 包括大于约0.03cm 3 / gm的陶瓷体积。 本发明还提供了一种制备这种纳米多孔陶瓷的方法,其中陶瓷前体聚合物或低聚物在惰性气体或真空存在下逐渐加热至高达400℃至最高约400℃的最高温度 任选地,该方法还可以包括在加热步骤之前进行的交联步骤,其中前体聚合物或低聚物在能够与存在于所述前体材料中的骨架原子进行加成或取代反应的交联剂存在下加热 在约100-400℃的中间温度下搅拌一段足以交联所述前体材料的时间,然后热解交联的材料。