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    • 2. 发明申请
    • CALCIUM BASED CARRIER PARTICLES
    • 钙基载体颗粒
    • WO2011028469A2
    • 2011-03-10
    • PCT/US2010/046307
    • 2010-08-23
    • NALCO COMPANYNANOSPECIALTIES, LLCKEIZER, Timothy S.SHOWALTER, Brett M.KEISER, Bruce A.ADAIR, James H.
    • KEIZER, Timothy S.SHOWALTER, Brett M.KEISER, Bruce A.ADAIR, James H.
    • C01B25/32C01B25/45C09C3/06A01N25/08C02F5/08
    • A01N25/08C02F1/50C02F2303/08
    • The present invention relates to a method for forming a calcium-based carrier particle consisting of the calcium-based material, an active, with or without a surface modification, a stabilizing agent, and the related composition. The calcium-based particle is illustrated by the general formula Ca x (PO4) y (OH) z R and may also include a silica or silica oxide substituent. R is an active or actives such as an organic or inorganic molecule that includes markers, amines, thiols, epoxies, organosilicones, organosilanes, sulfates, and water soluble agents and, as needed, a surface modification, S, which may be either organic or inorganic. A stabilizing agent may be necessary to maintain dispersion of the particles in aqueous media. Examples of a surface modifying material and stabilizing agents are inorganic salts of aluminum and boron or organic materials such as organosilanes or low molecular weight polymers. As such, the particle can be used in a variety of applications including any of a variety of high temperature, at acidic, neutral, or basic pH, or pressure environments. The carrier particles have applications as diverse as papermaking, water treatment, chemical tracing, personal care, microbiological control, oil recovery, delivery of polymers, for example.
    • 本发明涉及形成钙基载体颗粒的方法,所述钙基载体颗粒由钙基材料,具有或不具有表面改性的活性物质,稳定剂和相关组合物组成。 钙基颗粒由通式Ca(x)(PO 4)y(OH)z R表示,并且还可以包括二氧化硅或 二氧化硅取代基。 R是活性或活性物质,例如包括标记物,胺,硫醇,环氧化物,有机硅氧烷,有机硅烷,硫酸盐和水溶性试剂的有机或无机分子,以及根据需要的表面改性剂S,其可以是有机的或 无机。 可能需要稳定剂以维持颗粒在水性介质中的分散。 表面改性材料和稳定剂的实例是铝和硼的无机盐或有机材料如有机硅烷或低分子量聚合物。 这样,颗粒可用于各种应用,包括在酸性,中性或碱性pH或压力环境下的各种高温中的任何一种。 载体颗粒具有多种应用,例如造纸,水处理,化学追踪,个人护理,微生物控制,石油回收,聚合物的输送等。
    • 3. 发明申请
    • CALCIUM BASED CARRIER PARTICLES
    • 钙基载体颗粒
    • WO2011028469A3
    • 2011-06-23
    • PCT/US2010046307
    • 2010-08-23
    • NALCO CONANOSPECIALTIES LLCKEIZER TIMOTHY SSHOWALTER BRETT MKEISER BRUCE AADAIR JAMES H
    • KEIZER TIMOTHY SSHOWALTER BRETT MKEISER BRUCE AADAIR JAMES H
    • C01B25/32A01N25/08C01B25/45C02F5/08C09C3/06
    • A01N25/08C02F1/50C02F2303/08
    • The present invention relates to a method for forming a calcium-based carrier particle consisting of the calcium-based material, an active, with or without a surface modification, a stabilizing agent, and the related composition. The calcium-based particle is illustrated by the general formula Cax(PO4)y(OH)zR and may also include a silica or silica oxide substituent. R is an active or actives such as an organic or inorganic molecule that includes markers, amines, thiols, epoxies, organosilicones, organosilanes, sulfates, and water soluble agents and, as needed, a surface modification, S, which may be either organic or inorganic. A stabilizing agent may be necessary to maintain dispersion of the particles in aqueous media. Examples of a surface modifying material and stabilizing agents are inorganic salts of aluminum and boron or organic materials such as organosilanes or low molecular weight polymers. As such, the particle can be used in a variety of applications including any of a variety of high temperature, at acidic, neutral, or basic pH, or pressure environments. The carrier particles have applications as diverse as papermaking, water treatment, chemical tracing, personal care, microbiological control, oil recovery, delivery of polymers, for example.
    • 本发明涉及形成钙基载体颗粒的方法,所述钙基载体颗粒由钙基材料,具有或不具有表面改性的活性物质,稳定剂和相关组合物组成。 钙基颗粒由通式Ca x(PO 4)y(OH)z R表示并且还可以包括二氧化硅或二氧化硅取代基。 R是活性或活性物质,例如包括标记物,胺,硫醇,环氧化物,有机硅氧烷,有机硅烷,硫酸盐和水溶性试剂的有机或无机分子,以及根据需要的表面改性剂S,其可以是有机的或 无机。 可能需要稳定剂以维持颗粒在水性介质中的分散。 表面改性材料和稳定剂的实例是铝和硼的无机盐或有机材料如有机硅烷或低分子量聚合物。 这样,颗粒可用于各种应用,包括在酸性,中性或碱性pH或压力环境下的各种高温中的任何一种。 例如,载体颗粒具有多种应用,如造纸,水处理,化学追踪,个人护理,微生物控制,石油回收,聚合物输送。
    • 4. 发明申请
    • CALCIUM BASED CARRIER PARTICLES
    • 基于钙的载体颗粒
    • WO2011028496A2
    • 2011-03-10
    • PCT/US2010/046407
    • 2010-08-24
    • NALCO COMPANYNANOSPECIALTIES, LLCKEISER, Bruce A.KEIZER, Timothy S.SHOWALTER, Brett M.BOHNSACK, TiffanyADAIR, James H.PARETTE, MylisaKNUPP, AmyZELENEV, Andrei S.BURNEY, Jason R.
    • KEISER, Bruce A.KEIZER, Timothy S.SHOWALTER, Brett M.BOHNSACK, TiffanyADAIR, James H.PARETTE, MylisaKNUPP, AmyZELENEV, Andrei S.BURNEY, Jason R.
    • C01B25/32A01N25/08D21H21/38G01N21/75
    • A01N25/08C02F1/50C02F2303/08
    • The present invention relates to a method for forming a calcium-based carrier particle consisting of the calcium-based material, an active, with or without a surface modification, a stabilizing agent, and the related composition. The calcium-based particle is illustrated by the general formula Ca x (PO 4 ) y (OH) z R and may also include a silica or silica oxide substituent. R is an active or actives such as an organic or inorganic molecule that includes markers, amines, thiols, epoxies, organosilicones, organosilanes, sulfates, and water soluble agents and, as needed, a surface modification, S, which may be either organic or inorganic. A stabilizing agent may be necessary to maintain dispersion of the particles in aqueous media. Examples of a surface modifying material and stabilizing agents are inorganic salts of aluminum and boron or organic materials such as organosilanes or low molecular weight polymers. As such, the particle can be used in a variety of applications including any of a variety of high temperature, at acidic, neutral, or basic pH, or pressure environments. The carrier particles have applications as diverse as papermaking, water treatment, chemical tracing, personal care, microbiological control, oil recovery, delivery of polymers, for example.
    • 本发明涉及一种钙基载体颗粒的形成方法,该钙基载体颗粒由钙基材料,活性物质,表面改性活性物质,稳定剂和相关组合物组成。 钙基颗粒由通式Cax(PO4)y(OH)zR表示,也可以包括二氧化硅或二氧化硅氧化物取代基。 R是活性物质或活性物质,例如有机或无机分子,其包括标记物,胺,硫醇,环氧化物,有机硅氧烷,有机硅烷,硫酸盐和水溶性试剂,并且根据需要可以是表面改性S,其可以是有机的或有机的 无机。 可能需要稳定剂以保持颗粒在水性介质中的分散。 表面改性材料和稳定剂的实例是铝和硼的无机盐或有机材料如有机硅烷或低分子量聚合物。 因此,颗粒可以用于各种应用,包括各种高温,酸性,中性或碱性pH或压力环境中的任何一种。 载体颗粒具有例如造纸,水处理,化学追踪,个人护理,微生物控制,油回收,聚合物递送等应用。
    • 5. 发明申请
    • CALCIUM-BASED CARRIER PARTICLES
    • 基于钙的载体颗粒
    • WO2011028498A2
    • 2011-03-10
    • PCT/US2010/046414
    • 2010-08-24
    • NALCO COMPANYNANOSPECIALTIES, LLCKEISER, Bruce A.KEIZER, Timothy S.SHOWALTER, Brett M.BOHNSACK, TiffanyADAIR, James H.PARETTE, MylisaKNUPP, AmyZELENEV, Andrei S.BURNEY, Jason R.
    • KEISER, Bruce A.KEIZER, Timothy S.SHOWALTER, Brett M.BOHNSACK, TiffanyADAIR, James H.PARETTE, MylisaKNUPP, AmyZELENEV, Andrei S.BURNEY, Jason R.
    • C01B25/32C09C3/00G01N21/75A01N25/08D21H21/38
    • A01N25/08D06P1/67366
    • The present invention relates to a method for forming a calcium-based carrier particle consisting of the calcium-based material, an active, with or without a surface modification, a stabilizing agent, and the related composition. The calcium-based particle is illustrated by the general formula Ca x (PO 4 ) y (OH) z R and may also include a silica or silica oxide substituent. R is an active or actives such as an organic or inorganic molecule that includes markers, amines, thiols, epoxies, organosilicones, organosilanes, sulfates, and water soluble agents and, as needed, a surface modification, S, which may be either organic or inorganic. A stabilizing agent may be necessary to maintain dispersion of the particles in aqueous media. Examples of a surface modifying material and stabilizing agents are inorganic salts of aluminum and boron or organic materials such as organosilanes or low molecular weight polymers. As such, the particle can be used in a variety of applications including any of a variety of high temperature, at acidic, neutral, or basic pH, or pressure environments. The carrier particles have applications as diverse as papermaking, water treatment, chemical tracing, personal care, microbiological control, oil recovery, delivery of polymers, for example.
    • 本发明涉及一种由钙基材料,活性物质,有或没有表面改性,稳定剂和相关组合物形成的钙基载体颗粒的形成方法。 钙基颗粒由通式Cax(PO 4)y(OH)z R表示,也可以包括二氧化硅或二氧化硅氧化物取代基。 R是活性物质或活性物质,例如包括标记物,胺,硫醇,环氧化物,有机硅氧烷,有机硅烷,硫酸盐和水溶性物质的有机或无机分子,并且根据需要可以是表面改性S,其可以是有机的或有机的 无机。 可能需要稳定剂以保持颗粒在水性介质中的分散。 表面改性材料和稳定剂的实例是铝和硼的无机盐或有机物质如有机硅烷或低分子量聚合物。 因此,颗粒可以用于各种应用,包括各种高温,酸性,中性或碱性pH或压力环境中的任何一种。 载体颗粒具有例如造纸,水处理,化学追踪,个人护理,微生物控制,油回收,聚合物递送等应用。
    • 7. 发明申请
    • SILICA PARTICLE MANUFACTURING PROCESS
    • WO2011127104A3
    • 2011-10-13
    • PCT/US2011/031317
    • 2011-04-06
    • NALCO COMPANYKEISER, Bruce A.ERGANG, Nicholas S.MIMNA, RichardSHOWALTER, Brett M.
    • KEISER, Bruce A.ERGANG, Nicholas S.MIMNA, RichardSHOWALTER, Brett M.
    • C01B33/18C01B33/157C09C1/30C09C3/00
    • Methods of forming a silica-based products are disclosed. One method comprises: (a) providing a silica containing precursor (SCP) contained in solution that has a pH less than or equal to a pH of 7; (b) optionally doping the SCP with one or more metal species, wherein said doping occurs when the solution has a pH less than or equal to a pH of 7; (c) adjusting the pH of the solution to greater than 7; (d) adding an effective amount of salt to the solution so that the conductivity of the solution is greater than or equal to 4 mS, wherein said addition occurs prior to, simultaneous with, or after the pH adjustment in step 1c; (e) optionally filtering and drying the SCP; and (f) optionally reacting the dried product from step e with a functional group and optionally wherein the resultant functionalized dried product is at least one of the following: a functionalized metal oxide-doped or metal sulfide-doped silica product. Another method comprises: (a) providing a silica containing precursor (SCP) contained in solution that has a pH greater than 7; (b) adjusting the pH of the solution to less than or equal to 7; (c) optionally doping the SCP with one or more metal species, wherein said doping occurs when the solution has a pH less than or equal to a pH of 7; (d) adjusting the pH of the solution to greater than 7; (e) adding an effective amount of salt to the solution so that the conductivity of the solution is greater than or equal to 4 mS, wherein said addition occurs prior to, simultaneous with, or after the pH adjustment in step 2d; (f) optionally filtering and drying the SCP; and (g) optionally reacting the dried product from step f with a functional group and optionally wherein the resultant functionalized dried product is at least one of the following: a functionalized metal oxide-doped or metal sulfide-doped silica product.
    • 10. 发明申请
    • SILICA PARTICLE MANUFACTURING PROCESS
    • 二氧化硅颗粒制造工艺
    • WO2011127104A2
    • 2011-10-13
    • PCT/US2011031317
    • 2011-04-06
    • NALCO COKEISER BRUCE AERGANG NICHOLAS SMIMNA RICHARDSHOWALTER BRETT M
    • KEISER BRUCE AERGANG NICHOLAS SMIMNA RICHARDSHOWALTER BRETT M
    • C01B33/18C01B33/157C09C1/30C09C3/00
    • C01B33/18C01B33/1415C01P2006/12C01P2006/14C01P2006/16
    • Methods of forming a silica-based products are disclosed. One method comprises: (a) providing a silica containing precursor (SCP) contained in solution that has a pH less than or equal to a pH of 7; (b) optionally doping the SCP with one or more metal species, wherein said doping occurs when the solution has a pH less than or equal to a pH of 7; (c) adjusting the pH of the solution to greater than 7; (d) adding an effective amount of salt to the solution so that the conductivity of the solution is greater than or equal to 4 mS, wherein said addition occurs prior to, simultaneous with, or after the pH adjustment in step 1c; (e) optionally filtering and drying the SCP; and (f) optionally reacting the dried product from step e with a functional group and optionally wherein the resultant functionalized dried product is at least one of the following: a functionalized metal oxide-doped or metal sulfide-doped silica product. Another method comprises: (a) providing a silica containing precursor (SCP) contained in solution that has a pH greater than 7; (b) adjusting the pH of the solution to less than or equal to 7; (c) optionally doping the SCP with one or more metal species, wherein said doping occurs when the solution has a pH less than or equal to a pH of 7; (d) adjusting the pH of the solution to greater than 7; (e) adding an effective amount of salt to the solution so that the conductivity of the solution is greater than or equal to 4 mS, wherein said addition occurs prior to, simultaneous with, or after the pH adjustment in step 2d; (f) optionally filtering and drying the SCP; and (g) optionally reacting the dried product from step f with a functional group and optionally wherein the resultant functionalized dried product is at least one of the following: a functionalized metal oxide-doped or metal sulfide-doped silica product.
    • 公开了形成二氧化硅基产品的方法。 一种方法包括:(a)提供pH小于或等于7的溶液中含有的含二氧化硅的前体(SCP); (b)任选地用一种或多种金属物质掺杂SCP,其中当溶液的pH小于或等于pH7时,发生所述掺杂; (c)将溶液的pH调节至大于7; (d)向溶液中加入有效量的盐使溶液的电导率大于或等于4mS,其中所述添加发生在步骤1c中的pH调节之前,同时或之后, (e)任选地过滤和干燥SCP; 和(f)任选地使来自步骤e的干燥产物与官能团反应,任选地其中所得官能化干燥产物是以下至少一种:官能化金属氧化物掺杂或金属硫化物掺杂二氧化硅产物。 另一种方法包括:(a)提供包含在pH大于7的溶液中的含二氧化硅的前体(SCP); (b)将溶液的pH调节至小于或等于7; (c)任选地用一种或多种金属物质掺杂SCP,其中当溶液的pH小于或等于pH7时,发生所述掺杂; (d)将溶液的pH调节至大于7; (e)向溶液中加入有效量的盐使溶液的电导率大于或等于4mS,其中所述添加发生在步骤2d中的pH调节之前,同时或之后; (f)任选地过滤和干燥SCP; 和(g)任选地使来自步骤f的干燥产物与官能团反应,任选地其中所得官能化干燥产物是以下至少一种:官能化金属氧化物掺杂或金属硫化物掺杂二氧化硅产物。