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    • 6. 发明授权
    • Process for preparing a zinc complex in solution
    • 在溶液中制备锌络合物的方法
    • US08691168B2
    • 2014-04-08
    • US13582108
    • 2011-04-27
    • Veronika WlokaFriederike Fleischhaker
    • Veronika WlokaFriederike Fleischhaker
    • C01G9/00
    • H01L21/02554H01L21/02422H01L21/02573H01L21/02628H01L29/7869
    • The present invention provides a process for preparing a solution of electrically uncharged [(OH)x(NH3)yZn]z where x, y and z are each independently 0.01 to 10, comprising at least the steps of (A) contacting ZnO and/or Zn(OH)2 with ammonia in at least one solvent in order to obtain a solution of electrically uncharged [(OH)x(NH3)yZn]z where x, y and z each independently 0.01 to 10 with a concentration c1, (B) removing some solvent from the solution from step (A) in order to obtain a suspension comprising Zn(OH)2, (C) removing solid Zn(OH)2 from the suspension from step (B), and (D) contacting the Zn(OH)2 from step (C) with ammonia in at least one solvent in order to obtain a solution of electrically uncharged [(OH)x(NH3)yZn]z where x, y and z are each independently 0.01 to 10 with the concentration c2, and to highly concentrated solutions of electrically uncharged [(OH)x(NH3)yZn]z where x, y and z are each independently 0.01 to 10, to a process for producing a layer comprising at least zinc oxide on a substrate, comprising at least the steps of (E) preparing a solution of electrically uncharged [(OH)x(NH3)yZn]z where x, y and z are each independently 0.01 to 10 by the former process according to the invention, (F) applying the solution from step (E) to the substrate and (G) thermally treating the substrate from step (F) at a temperature of 20 to 450° C. in order to convert electrically uncharged [(OH)x(NH3)yZn]z where x, y and z are each independently 0.01 to 10 to zinc oxide.
    • 本发明提供了一种制备电荷不含电荷[(OH)x(NH 3)y Zn] z的溶液的方法,其中x,y和z各自独立地为0.01至10,至少包括以下步骤:(A)使ZnO和/ 或Zn(OH)2与氨在至少一种溶剂中的溶液,以获得电荷不饱和的[(OH)x(NH 3)y Zn] z的溶液,其中x,y和z各自独立地为0.01至10,浓度为c1, B)从步骤(A)的溶液中除去一些溶剂,以获得包含Zn(OH)2,(C)从步骤(B)的悬浮液中除去固体Zn(OH)2的悬浮液,和(D)接触 (C)中的Zn(OH)2与氨在至少一种溶剂中以获得电荷不含电荷[(OH)x(NH 3)y Zn] z的溶液,其中x,y和z各自独立地为0.01至10 浓度c2以及电荷不饱和的[(OH)x(NH 3)y Zn] z的高浓度溶液,其中x,y和z各自独立地为0.01至10, (OH)x(NH 3)yZn] z的溶液中的至少一个步骤,其中x,y和z各自独立地为0.01至10,前者是根据 (F)将步骤(E)的溶液施加到基材上,(G)在20至450℃的温度下从步骤(F)对基材进行热处理,以将不带电荷的[(OH )x(NH 3)yZn] z其中x,y和z各自独立地为氧化锌的0.01至10。
    • 7. 发明申请
    • PROCESS FOR PREPARING A ZINC COMPLEX IN SOLUTION
    • 在溶液中制备ZINC复合物的方法
    • US20120328509A1
    • 2012-12-27
    • US13582108
    • 2011-04-27
    • Veronika WlokaFriederike Fleischhaker
    • Veronika WlokaFriederike Fleischhaker
    • H01B1/06H01L21/20C01G9/02
    • H01L21/02554H01L21/02422H01L21/02573H01L21/02628H01L29/7869
    • The present invention provides a process for preparing a solution of electrically uncharged [(OH)x(NH3)yZn]z where x, y and z are each independently 0.01 to 10, comprising at least the steps of (A) contacting ZnO and/or Zn(OH)2 with ammonia in at least one solvent in order to obtain a solution of electrically uncharged [(OH)x(NH3)yZn]z where x, y and z each independently 0.01 to 10 with a concentration c1, (B) removing some solvent from the solution from step (A) in order to obtain a suspension comprising Zn(OH)2, (C) removing solid Zn(OH)2 from the suspension from step (B), and (D) contacting the Zn(OH)2 from step (C) with ammonia in at least one solvent in order to obtain a solution of electrically uncharged [(OH)x(NH3)yZn]z where x, y and z are each independently 0.01 to 10 with the concentration c2, and to highly concentrated solutions of electrically uncharged [(OH)x(NH3)yZn]z where x, y and z are each independently 0.01 to 10, to a process for producing a layer comprising at least zinc oxide on a substrate, comprising at least the steps of (E) preparing a solution of electrically uncharged [(OH)x(NH3)yZn]z where x, y and z are each independently 0.01 to 10 by the former process according to the invention, (F) applying the solution from step (E) to the substrate and (G) thermally treating the substrate from step (F) at a temperature of 20 to 450° C. in order to convert electrically uncharged [(OH)x(NH3)yZn]z where x, y and z are each independently 0.01 to 10 to zinc oxide.
    • 本发明提供了一种制备电荷不含电荷[(OH)x(NH 3)y Zn] z的溶液的方法,其中x,y和z各自独立地为0.01至10,至少包括以下步骤:(A)使ZnO和/ 或Zn(OH)2与氨在至少一种溶剂中的溶液,以获得电荷不含电荷[(OH)x(NH 3)y Zn] z的溶液,其中x,y和z各自独立地为0.01至10,浓度为c1, B)从步骤(A)的溶液中除去一些溶剂,以获得包含Zn(OH)2,(C)从步骤(B)的悬浮液中除去固体Zn(OH)2的悬浮液,和(D)接触 (C)中的Zn(OH)2与氨在至少一种溶剂中以获得电荷不含电荷[(OH)x(NH 3)y Zn] z的溶液,其中x,y和z各自独立地为0.01至10 浓度c2以及电荷不饱和的[(OH)x(NH 3)y Zn] z的高浓度溶液,其中x,y和z各自独立地为0.01至10, (OH)x(NH 3)yZn] z的溶液中的至少一个步骤,其中x,y和z各自独立地为0.01至10,前者是根据 (F)将步骤(E)的溶液施加到基材上,(G)在20至450℃的温度下从步骤(F)对基材进行热处理,以将不带电荷的[(OH )x(NH 3)yZn] z其中x,y和z各自独立地为氧化锌的0.01至10。
    • 8. 发明申请
    • THERMALLY LABILE PRECURSOR COMPOUNDS FOR IMPROVING THE INTERPARTICULATE CONTACT SITES AND FOR FILLING THE INTERSTICES IN SEMICONDUCTIVE METAL OXIDE PARTICLE LAYERS
    • 用于改进间断接触点和用于填充半导体金属氧化物颗粒层中的相互作用的热可塑前体化合物
    • US20120086002A1
    • 2012-04-12
    • US13378765
    • 2010-06-15
    • Friederike FleischhakerImme DomkeAndrey KarpovMarcel KastlerVeronika WlokaLothar Weber
    • Friederike FleischhakerImme DomkeAndrey KarpovMarcel KastlerVeronika WlokaLothar Weber
    • H01L29/22H01L21/20
    • H01L21/02422H01L21/02554H01L21/02565H01L21/02573H01L21/02601H01L21/02628
    • The present invention relates to a process for producing a layer comprising at least one semiconductive metal oxide on a substrate, comprising at least the steps of:(A) applying a porous layer of at least one semiconductive metal oxide to a substrate,(B) treating the porous layer from step (A) with a solution comprising at least one precursor compound of the semiconductive metal oxide, such that the pores of the porous layer are at least partly filled with this solution and(C) thermally treating the layer obtained in step (B) in order to convert the at least one precursor compound of the semiconductive metal oxide to the semiconductive metal oxide,wherein the at least one precursor compound of the at least one semiconductive metal oxide in step (B) is selected from the group consisting of carboxylates of mono-, di- or polycarboxylic acids having at least three carbon atoms or derivatives of mono-, di- or polycarboxylic acids, alkoxides, hydroxides, semicarbazides, carbamates, hydroxamates, isocyanates, amidines, amidrazones, urea derivatives, hydroxylamines, oximes, oximates, urethanes, ammonia, amines, phosphines, ammonium compounds, nitrates, nitrites or azides of the corresponding metal, and mixtures thereof.
    • 本发明涉及一种在基材上制备包含至少一种半导体金属氧化物的层的方法,至少包括以下步骤:(A)将至少一种半导体金属氧化物的多孔层施加到基材上,(B) 用包含半导体金属氧化物的至少一种前体化合物的溶液处理来自步骤(A)的多孔层,使得多孔层的孔至少部分地被该溶液填充,和(C)热处理 步骤(B),以将半导体金属氧化物的至少一种前体化合物转化为半导体金属氧化物,其中步骤(B)中的至少一种半导体金属氧化物的至少一种前体化合物选自 由具有至少三个碳原子的单,二或多元羧酸的羧酸盐或单羧酸,二羧酸或多元羧酸,醇盐,氢氧化物,氨基脲,氨基甲酸盐,水合物 氨基甲酸酯,异氰酸酯,脒,氨基腙,脲衍生物,羟胺,肟,肟酸酯,氨基甲酸酯,氨,胺,膦,铵化合物,硝酸酯,亚硝酸酯或相应金属的叠氮化物及其混合物。