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    • 2. 发明授权
    • Method and apparatus for the continuous on-site chemical reprocessing of
ultrapure liquids
    • 用于超纯液体连续现场化学处理的方法和设备
    • US4828660A
    • 1989-05-09
    • US915776
    • 1986-10-06
    • R. Scot ClarkJoe G. HoffmanJohn B. DavisonAlan W. JonesAllen H. Jones, Jr.David W. PersichiniWallace I. YuanBruce A. Lipisko
    • R. Scot ClarkJoe G. HoffmanJohn B. DavisonAlan W. JonesAllen H. Jones, Jr.David W. PersichiniWallace I. YuanBruce A. Lipisko
    • H01L21/304B01D1/02B01D3/14B01D3/34B01D5/00C02F1/04C25B1/28
    • B01D5/0006B01D1/02B01D3/14B01D3/343C25B1/285Y10S134/902
    • A continuous process and apparatus for the repurification of ultrapure liquids. An oxidant solution comprising ultrapure sulfuric acid, peroxydisulfuric acid, and ultrapure water is continuously withdrawn from a process after use. The withdrawn oxidant is reprocessed continuously by contacting with alumina to remove fluoride ions. Water is continuously separated or stripped from the oxidant solution by heating the solution and bubbling an inert gas therethrough causing the water to vaporize from the solution. The separated oxidant is continuously distilled and condensed to form a purified stream of sulfuric acid. The major portion of this stream is continuously returned to the process. The remaining minor portion is continuously cooled, subjected to analysis for purity, and diluted with ultrapure water. The diluted sulfuric acid is further cooled prior to electrochemical treatment in the anode compartment of an electrochemical cell. This converts at least a portion of the dilute sulfuric acid to peroxydisulfuric acid. The resulting solution is continuously returned to the process to be mixed with the major portion of the purified sulfuric acid. A system of apparatus to conduct the processes is provided which also includes means for continuously analyzing the minor portion for purity and trace elements.
    • 用于超纯液体再生的连续方法和设备。 包含超纯硫酸,过氧二硫酸和超纯水的氧化剂溶液在使用后从工艺中连续取出。 取出的氧化剂通过与氧化铝接触来连续再处理以​​除去氟离子。 通过加热溶液并使惰性气体通过其中,使水从氧化剂溶液中连续分离或汽提,使得水从溶液中蒸发。 分离的氧化剂被连续蒸馏和冷凝以形成纯化的硫酸流。 该流的主要部分不断返回到该过程中。 剩余的小部分被连续冷却,进行纯度分析,并用超纯水稀释。 在电化学电池的阳极室中进行电化学处理之前,将稀硫酸进一步冷却。 这将至少一部分稀硫酸转化为过氧二硫酸。 所得溶液连续返回到与纯化硫酸的主要部分混合的过程中。 提供了一种用于进行处理的装置的系统,其还包括用于连续分析次要部分以获得纯度和微量元素的装置。
    • 8. 发明授权
    • Method and apparatus for purifying hydrogen fluoride
    • 氟化氢净化方法及装置
    • US4952386A
    • 1990-08-28
    • US196327
    • 1988-05-20
    • John B. DavisonChung-Tseng Hsu
    • John B. DavisonChung-Tseng Hsu
    • B01D15/04B01J41/04B01J47/14C01B7/19C01G49/08
    • C01B7/197C01B7/195C01B7/198C01G49/08Y10S210/915Y10S423/14
    • A method for purifying hydrofluoric acid, comprising the steps of filtering the hydrofluoric acid to remove particulates, passing the filtered acid through a cation exchange material and an anion exchange material to remove ions therefrom, at least periodically automatically monitoring the acid that has passed through at least a predetermined portion of the cation exchange material for a predetermined level of cationic impurity representative of actual or impending ionic breakthrough in the cation exchange material, at least periodically automatically monitoring the acid that has passed through at least a predetermined portion of the anion exchange material for a predetermined level of anionic impurity representative of ionic breakthrough in the anion exchange material, automatically interrupting flow of acid through the anionic or cationic exchange material at or prior to the time the breakthrough in such material occurs, while the flow is interrupted, regenerating the anionic or cationic exchange material, resuming the flow after the exchange material is regenerated, passing the acid from the cationic and anionic exchange materials through an ultrafilter and into a storage container, and monitoring the level of particulate impurities in acid that has passed through the anion and cation exchange materials and automatically passing the acid in the storage container through a filter when the level of particulates exceeds a predetermined level, until the particulates are below the predetermined level. Also disclosed is an apparatus for performing the foregoing process.
    • 一种净化氢氟酸的方法,包括以下步骤:过滤氢氟酸以除去微粒,使过滤的酸通过阳离子交换材料和阴离子交换材料以从其中除去离子,至少周期性地自动监测已通过的酸 至少一个阳离子交换材料的预定部分,用于表示阳离子交换材料中实际或即将离子穿透的预定水平的阳离子杂质,至少周期性地自动监测已经通过至少预定部分阴离子交换材料的酸 对于表示阴离子交换材料中的离子突破的预定水平的阴离子杂质,在发生这种材料的穿透时或之前自动中断通过阴离子或阳离子交换材料的酸流,同时流动被中断,再生 阴离子或阴 在交换材料再生后恢复流动,将酸从阳离子交换材料和阴离子交换材料通过超滤器并进入储存容器,并监测已经通过阴离子和阳离子的酸中的颗粒杂质的水平 交换材料,并且当微粒的水平超过预定水平时,直到颗粒低于预定水平时,通过过滤器自动地将酸存储在储存容器中。 还公开了一种用于执行上述处理的装置。
    • 9. 发明授权
    • Electrochemical maintenance of catalyst activity
    • 电化学维持催化剂活性
    • US4499025A
    • 1985-02-12
    • US371378
    • 1982-04-23
    • John B. DavisonRaymond J. JasinskiPamela J. Peerce-Landers
    • John B. DavisonRaymond J. JasinskiPamela J. Peerce-Landers
    • B01J31/16B01J31/24B01J37/34C07C255/49C07C121/50
    • C07C255/00B01J31/2404B01J37/348B01J2231/40B01J2531/824B01J2531/847
    • The instant invention relates to a process for the conversion of an aryl halide into an aryl cyanide, which comprises the steps of:(a) providing a first electrode and a second electrode of opposite polarity from said first electrode in an electrolyte, said electrolyte comprising an aryl halide and a zerovalent Group VIII metal catalyst complex dissolved in a conductive solvent, wherein said Group VIII metal catalyst complex is capable of catalyzing the conversion of said aryl halide to an aryl cyanide in the presence of cyanide ions and susceptible to reaction with cyanide ions to yield a catalytically inactive Group VIII metal species,(b) providing cyanide ions in said electrolyte to convert said aryl halide to said aryl cyanide,(c) providing a flow of current between said electrodes, and(d) selectively controlling the electrical potential between said first and second electrode to convert said catalytically inactive Group VIII metal species to said zero valent Group VIII metal catalyst complex.More broadly, the instant invention relates to an improvement in a process for the conversion of a reactant into a reaction product in the presence of a soluble Group VIII metal catalyst complex, wherein said conversion is characterized by the reactant and Group VIII metal catalyst complex combining to form an intermediate, which intermediate may decompose in the presence of a coreactant to said reaction product and said Group VIII metal catalyst complex or said Group VIII metal catalyst may combine with said coreactant to yield a catalytically inactive Group VIII metal species, wherein the improvement comprises electrochemically converting said catalytically inactive Group VIII metal species into said Group VIII metal catalyst complex.
    • 本发明涉及一种将芳基卤转化成芳基氰化物的方法,其包括以下步骤:(a)在电解质中提供与所述第一电极相反极性的第一电极和第二电极,所述电解质包括 芳基卤化物和溶解在导电溶剂中的零价Ⅷ族金属催化剂络合物,其中所述VIII族金属催化剂络合物能够在氰化物离子存在下催化所述芳基卤化物转化成芳基氰化物并易于与氰化物反应 (b)在所述电解质中提供氰化物离子以将所述芳基卤转化成所述芳基氰化物,(c)在所述电极之间提供电流,和(d)选择性地控制所述电解质 所述第一和第二电极之间的电位将所述催化非活性VIII族金属物质转化成所述零价金属Ⅷ族金属 天才复合体。 更广泛地说,本发明涉及在可溶性VIII族金属催化剂络合物存在下将反应物转化为反应产物的方法的改进,其中所述转化的特征在于反应物和VIII族金属催化剂络合物的组合 形成中间体,该中间体可以在共反应物存在下分解成所述反应产物,并且所述VIII族金属催化剂络合物或所述VIII族金属催化剂可与所述共反应物结合以产生催化无活性的第VIII族金属物质,其中改进 包括将所述催化活性的第VIII族金属物质电化学转化为所述第VIII族金属催化剂络合物。
    • 10. 发明授权
    • Silicon-phthalocyanine-siloxane polymers
    • 硅酞菁 - 硅氧烷聚合物
    • US4132842A
    • 1979-01-02
    • US880514
    • 1978-02-23
    • Kenneth J. WynneJohn B. Davison
    • Kenneth J. WynneJohn B. Davison
    • C08G77/26C08L63/00C08G77/04
    • C08G77/26C08L63/00
    • A silicon-phthalocyanine-siloxane polymer having the formula ##STR1## WHEREIN Pc is a phthalocyanine nucleus, Ph is a phenyl group, n is an integer from 1 to 8, and x is an average value up to 20, is prepared by a method including a reaction of a phthalocyanine-silicon-disilanol with a bis(ureido) dialkyl silane or bis(ureido) siloxane or by the reaction of a phthalocyanine-silicon-disilanol with a bis(dialkyl) amino) silane or a bis(dialkylamino) siloxane. These polymers are useful as strengthening agents for high-temperature resins, such as polyimides, poly(phthalocyanines) or epoxies and as coatings or dyes.
    • 具有式(PciOSiR'Ph(OSiR2“)nOSiR'PhO)x WHEREIN Pc的硅 - 酞菁 - 硅氧烷聚合物是酞菁核,Ph是苯基,n是1至8的整数,x是 通过包括酞菁 - 硅 - 二硅烷醇与双(脲基)二烷基硅烷或双(脲基)硅氧烷的反应或通过酞菁 - 硅 - 二硅烷与双( 二烷基)氨基)硅烷或双(二烷基氨基)硅氧烷。 这些聚合物可用作高温树脂的增强剂,例如聚酰亚胺,聚(酞菁)或环氧树脂以及作为涂料或染料。