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1.发明申请Continuous Methods for Treating Liquids and Manufacturing Certain Constituents (e.g., Nanoparticles) in Liquids, Apparatuses and Nanoparticles and Nanoparticle /Liquid Solution(s) Therefrom 有权用于处理液体和在液体,装置和纳米颗粒中制备某些成分(例如纳米颗粒)和纳米颗粒/液体溶液的连续方法公开(公告)号:US20100187091A1
公开(公告)日:2010-07-29
申请号:US12686815
申请日:2010-01-13
Applicant: David Kyle Pierce , Mark G. Mortenson , David A. Bryce
Inventor: David Kyle Pierce , Mark G. Mortenson , David A. Bryce
CPC classification number: H05H1/48 , B01J19/088 , B01J2219/0004 , B01J2219/0809 , B01J2219/0813 , B01J2219/082 , B01J2219/083 , B01J2219/0841 , B01J2219/0869 , B01J2219/0871 , B01J2219/0877 , B22F9/20 , B22F2999/00 , B82Y30/00 , B82Y40/00 , B22F2202/06 , B22F2202/13
Abstract: This invention relates generally to novel methods and novel devices for the continuous manufacture of nanoparticles, microparticles and nanoparticle/liquid solution(s). The nanoparticles (and/or micron-sized particles) comprise a variety of possible compositions, sizes and shapes. The particles (e.g., nanoparticles) are caused to be present (e.g., created and/or the liquid is predisposed to their presence (e.g., conditioned)) in a liquid (e.g., water) by, for example, preferably utilizing at least one adjustable plasma (e.g., created by at least one AC and/or DC power source), which plasma communicates with at least a portion of a surface of the liquid. At least one subsequent and/or substantially simultaneous adjustable electrochemical processing technique is also preferred. Multiple adjustable plasmas and/or adjustable electrochemical processing techniques are preferred. The continuous process causes at least one liquid to flow into, through and out of at least one trough member, such liquid being processed, conditioned and/or effected in said trough member(s). Results include constituents formed in the liquid including micron-sized particles and/or nanoparticles (e.g., metallic-based nanoparticles) of novel size, shape, composition, zeta potential and properties present in a liquid.
Abstract translation: 本发明一般涉及用于连续制造纳米颗粒,微粒和纳米颗粒/液体溶液的新颖方法和新型装置。 纳米颗粒(和/或微米尺寸的颗粒)包含各种可能的组合物,尺寸和形状。 引起颗粒(例如,纳米颗粒)存在(例如,通过例如优选利用至少一种的方式在液体(例如水)中存在(例如,产生和/或将液体倾向于其存在(例如,调节)) 可调节的等离子体(例如,由至少一个AC和/或DC电源产生),其等离子体与液体的至少一部分表面连通。 至少一个后续和/或基本上同时可调节的电化学处理技术也是优选的。 多重可调等离子体和/或可调电化学处理技术是优选的。 连续过程使至少一种液体流入,通过和流出至少一个槽构件,这种液体在所述槽构件中被处理,调节和/或实现。 结果包括在液体中形成的成分,包括具有新颖尺寸,形状,组成,ζ电位和存在于液体中的性质的微米级颗粒和/或纳米颗粒(例如金属基纳米颗粒)。
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公开(公告)号:US20160375058A1
公开(公告)日:2016-12-29
申请号:US15199009
申请日:2016-06-30
Applicant: David Kyle Pierce , Mark G. Mortenson , David A. Bryce
Inventor: David Kyle Pierce , Mark G. Mortenson , David A. Bryce
CPC classification number: A61K33/30 , A61K9/5192 , A61K33/38 , B01J19/088 , B01J2219/0809 , B01J2219/0813 , B01J2219/0816 , B01J2219/082 , B01J2219/0822 , B01J2219/083 , B01J2219/0841 , B01J2219/0869 , B01J2219/0877 , B01J2219/0896
Abstract: This invention relates generally to novel methods and novel devices for the continuous manufacture of nanoparticles, microparticles and nanoparticle/liquid solution(s). The nanoparticles (and/or micron-sized particles) comprise a variety of possible compositions, sizes and shapes. The particles (e.g., nanoparticles) are caused to be present (e.g., created and/or the liquid is predisposed to their presence (e.g., conditioned)) in a liquid (e.g., water) by, for example, preferably utilizing at least one adjustable plasma (e.g., created by at least one AC and/or DC power source), which plasma communicates with at least a portion of a surface of the liquid. At least one subsequent and/or substantially simultaneous adjustable electrochemical processing technique is also preferred. Multiple adjustable plasmas and/or adjustable electrochemical processing techniques are preferred. The continuous process causes at least one liquid to flow into, through and out of at least one trough member, such liquid being processed, conditioned and/or effected in said trough member(s). Results include constituents formed in the liquid including micron-sized particles and/or nanoparticles (e.g., metallic-based nanoparticles) of novel size, shape, composition, zeta potential and properties present in a liquid.
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3.发明授权Continuous methods for treating liquids and manufacturing certain constituents (e.g., nanoparticles) in liquids, apparatuses and nanoparticles and nanoparticle/liquid solution(s) therefrom 有权用于处理液体和在液体,装置和纳米颗粒中制造某些组分(例如纳米颗粒)和纳米颗粒/液体溶液的连续方法
公开(公告)号:US08540942B2
公开(公告)日:2013-09-24
申请号:US12686815
申请日:2010-01-13
Applicant: David Kyle Pierce , Mark G. Mortenson , David A. Bryce
Inventor: David Kyle Pierce , Mark G. Mortenson , David A. Bryce
IPC: B01J19/08
CPC classification number: H05H1/48 , B01J19/088 , B01J2219/0004 , B01J2219/0809 , B01J2219/0813 , B01J2219/082 , B01J2219/083 , B01J2219/0841 , B01J2219/0869 , B01J2219/0871 , B01J2219/0877 , B22F9/20 , B22F2999/00 , B82Y30/00 , B82Y40/00 , B22F2202/06 , B22F2202/13
Abstract: This invention relates generally to novel methods and novel devices for the continuous manufacture of nanoparticles, microparticles and nanoparticle/liquid solution(s). The nanoparticles (and/or micron-sized particles) comprise a variety of possible compositions, sizes and shapes. The particles (e.g., nanoparticles) are caused to be present (e.g., created and/or the liquid is predisposed to their presence (e.g., conditioned)) in a liquid (e.g., water) by, for example, preferably utilizing at least one adjustable plasma (e.g., created by at least one AC and/or DC power source), which plasma communicates with at least a portion of a surface of the liquid. At least one subsequent and/or substantially simultaneous adjustable electrochemical processing technique is also preferred. Multiple adjustable plasmas and/or adjustable electrochemical processing techniques are preferred. The continuous process causes at least one liquid to flow into, through and out of at least one trough member, such liquid being processed, conditioned and/or effected in said trough member(s). Results include constituents formed in the liquid including micron-sized particles and/or nanoparticles (e.g., metallic-based nanoparticles) of novel size, shape, composition, zeta potential and properties present in a liquid.
Abstract translation: 本发明一般涉及用于连续制造纳米颗粒,微粒和纳米颗粒/液体溶液的新颖方法和新型装置。 纳米颗粒(和/或微米尺寸的颗粒)包含各种可能的组合物,尺寸和形状。 引起颗粒(例如,纳米颗粒)存在(例如,通过例如优选利用至少一种的方式在液体(例如水)中存在(例如,产生和/或将液体倾向于其存在(例如,调节)) 可调节的等离子体(例如,由至少一个AC和/或DC电源产生),其等离子体与液体的至少一部分表面连通。 至少一个后续和/或基本上同时可调节的电化学处理技术也是优选的。 多重可调等离子体和/或可调电化学处理技术是优选的。 连续过程使至少一种液体流入,通过和流出至少一个槽构件,这种液体在所述槽构件中被处理,调节和/或实现。 结果包括在液体中形成的成分,包括具有新颖尺寸,形状,组成,ζ电位和存在于液体中的性质的微米级颗粒和/或纳米颗粒(例如金属基纳米颗粒)。
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公开(公告)号:US20210052638A1
公开(公告)日:2021-02-25
申请号:US16501474
申请日:2019-10-09
Applicant: David Kyle Pierce , Mark G. Mortenson , David A. Bryce
Inventor: David Kyle Pierce , Mark G. Mortenson , David A. Bryce
Abstract: This invention relates generally to novel methods and novel devices for the continuous manufacture of nanoparticles, microparticles and nanoparticle/liquid solution(s). The nanoparticles (and/or micron-sized particles) comprise a variety of possible compositions, sizes and shapes. The particles (e.g., nanoparticles) are caused to be present (e.g., created and/or the liquid is predisposed to their presence (e.g., conditioned)) in a liquid (e.g., water) by, for example, preferably utilizing at least one adjustable plasma (e.g., created by at least one AC and/or DC power source), which plasma communicates with at least a portion of a surface of the liquid. At least one subsequent and/or substantially simultaneous adjustable electrochemical processing technique is also preferred. Multiple adjustable plasmas and/or adjustable electrochemical processing techniques are preferred. The continuous process causes at least one liquid to flow into, through and out of at least one trough member, such liquid being processed, conditioned and/or effected in said trough member(s). Results include constituents formed in the liquid including micron-sized particles and/or nanoparticles (e.g., metallic-based nanoparticles) of novel size, shape, composition, zeta potential and properties present in a liquid.
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公开(公告)号:US10441608B2
公开(公告)日:2019-10-15
申请号:US15199009
申请日:2016-06-30
Applicant: David Kyle Pierce , Mark G. Mortenson , David A. Bryce
Inventor: David Kyle Pierce , Mark G. Mortenson , David A. Bryce
Abstract: This invention relates generally to novel methods and novel devices for the continuous manufacture of nanoparticles, microparticles and nanoparticle/liquid solution(s). The nanoparticles (and/or micron-sized particles) comprise a variety of possible compositions, sizes and shapes. The particles (e.g., nanoparticles) are caused to be present (e.g., created and/or the liquid is predisposed to their presence (e.g., conditioned)) in a liquid (e.g., water) by, for example, preferably utilizing at least one adjustable plasma (e.g., created by at least one AC and/or DC power source), which plasma communicates with at least a portion of a surface of the liquid. At least one subsequent and/or substantially simultaneous adjustable electrochemical processing technique is also preferred. Multiple adjustable plasmas and/or adjustable electrochemical processing techniques are preferred. The continuous process causes at least one liquid to flow into, through and out of at least one trough member, such liquid being processed, conditioned and/or effected in said trough member(s). Results include constituents formed in the liquid including micron-sized particles and/or nanoparticles (e.g., metallic-based nanoparticles) of novel size, shape, composition, zeta potential and properties present in a liquid.
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6.发明授权Continuous methods for treating liquids and manufacturing certain constituents (e.g., nanoparticles) in liquids, apparatuses and nanoparticles and nanoparticle/liquid solution(s) resulting therefrom 有权用于处理液体并在液体,装置和纳米颗粒中制造某些组分(例如纳米颗粒)和由此产生的纳米颗粒/液体溶液的连续方法
公开(公告)号:US09387452B2
公开(公告)日:2016-07-12
申请号:US14010721
申请日:2013-08-27
Applicant: David Kyle Pierce , Mark G. Mortenson , David A. Bryce
Inventor: David Kyle Pierce , Mark G. Mortenson , David A. Bryce
IPC: B01J19/08
CPC classification number: A61K33/30 , A61K9/5192 , A61K33/38 , B01J19/088 , B01J2219/0809 , B01J2219/0813 , B01J2219/0816 , B01J2219/082 , B01J2219/0822 , B01J2219/083 , B01J2219/0841 , B01J2219/0869 , B01J2219/0877 , B01J2219/0896
Abstract: This invention relates generally to novel methods and novel devices for the continuous manufacture of nanoparticles, microparticles and nanoparticle/liquid solution(s). The nanoparticles (and/or micron-sized particles) comprise a variety of possible compositions, sizes and shapes. The particles (e.g., nanoparticles) are caused to be present (e.g., created and/or the liquid is predisposed to their presence (e.g., conditioned)) in a liquid (e.g., water) by, for example, preferably utilizing at least one adjustable plasma (e.g., created by at least one AC and/or DC power source), which plasma communicates with at least a portion of a surface of the liquid. At least one subsequent and/or substantially simultaneous adjustable electrochemical processing technique is also preferred. Multiple adjustable plasmas and/or adjustable electrochemical processing techniques are preferred. The continuous process causes at least one liquid to flow into, through and out of at least one trough member, such liquid being processed, conditioned and/or effected in said trough member(s). Results include constituents formed in the liquid including micron-sized particles and/or nanoparticles (e.g., metallic-based nanoparticles) of novel size, shape, composition, zeta potential and properties present in a liquid.
Abstract translation: 本发明一般涉及用于连续制造纳米颗粒,微粒和纳米颗粒/液体溶液的新颖方法和新型装置。 纳米颗粒(和/或微米尺寸的颗粒)包含各种可能的组合物,尺寸和形状。 引起颗粒(例如,纳米颗粒)存在(例如,通过例如优选利用至少一种的方式在液体(例如水)中存在(例如,产生和/或将液体倾向于其存在(例如,调节)) 可调节的等离子体(例如,由至少一个AC和/或DC电源产生),其等离子体与液体的至少一部分表面连通。 至少一个后续和/或基本上同时可调节的电化学处理技术也是优选的。 多重可调等离子体和/或可调电化学处理技术是优选的。 连续过程使至少一种液体流入,通过和流出至少一个槽构件,这种液体在所述槽构件中被处理,调节和/或实现。 结果包括在液体中形成的成分,包括具有新颖尺寸,形状,组成,ζ电位和存在于液体中的性质的微米级颗粒和/或纳米颗粒(例如金属基纳米颗粒)。
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7.发明申请Continuous Methods for Treating Liquids and Manufacturing Certain Constituents (e.g., Nanoparticles) in Liquids, Apparatuses and Nanoparticles and Nanoparticle/Liquid Solution(s) Resulting Therefrom 有权用于处理液体和在液体,装置和纳米颗粒中制造某些成分(例如纳米颗粒)的连续方法和由此产生的纳米颗粒/液体溶液
公开(公告)号:US20150064278A1
公开(公告)日:2015-03-05
申请号:US14010721
申请日:2013-08-27
Applicant: David Kyle Pierce , Mark G. Mortenson , David A. Bryce
Inventor: David Kyle Pierce , Mark G. Mortenson , David A. Bryce
CPC classification number: A61K33/30 , A61K9/5192 , A61K33/38 , B01J19/088 , B01J2219/0809 , B01J2219/0813 , B01J2219/0816 , B01J2219/082 , B01J2219/0822 , B01J2219/083 , B01J2219/0841 , B01J2219/0869 , B01J2219/0877 , B01J2219/0896
Abstract: This invention relates generally to novel methods and novel devices for the continuous manufacture of nanoparticles, microparticles and nanoparticle/liquid solution(s). The nanoparticles (and/or micron-sized particles) comprise a variety of possible compositions, sizes and shapes. The particles (e.g., nanoparticles) are caused to be present (e.g., created and/or the liquid is predisposed to their presence (e.g., conditioned)) in a liquid (e.g., water) by, for example, preferably utilizing at least one adjustable plasma (e.g., created by at least one AC and/or DC power source), which plasma communicates with at least a portion of a surface of the liquid. At least one subsequent and/or substantially simultaneous adjustable electrochemical processing technique is also preferred. Multiple adjustable plasmas and/or adjustable electrochemical processing techniques are preferred. The continuous process causes at least one liquid to flow into, through and out of at least one trough member, such liquid being processed, conditioned and/or effected in said trough member(s). Results include constituents formed in the liquid including micron-sized particles and/or nanoparticles (e.g., metallic-based nanoparticles) of novel size, shape, composition, zeta potential and properties present in a liquid.
Abstract translation: 本发明一般涉及用于连续制造纳米颗粒,微粒和纳米颗粒/液体溶液的新颖方法和新型装置。 纳米颗粒(和/或微米尺寸的颗粒)包含各种可能的组合物,尺寸和形状。 引起颗粒(例如,纳米颗粒)存在(例如,通过例如优选利用至少一种的方式在液体(例如水)中存在(例如,产生和/或将液体倾向于其存在(例如,调节)) 可调节的等离子体(例如,由至少一个AC和/或DC电源产生),其等离子体与液体的至少一部分表面连通。 至少一个后续和/或基本上同时可调节的电化学处理技术也是优选的。 多重可调等离子体和/或可调电化学处理技术是优选的。 连续过程使至少一种液体流入,通过和流出至少一个槽构件,这种液体在所述槽构件中被处理,调节和/或实现。 结果包括在液体中形成的成分,包括具有新颖尺寸,形状,组成,ζ电位和存在于液体中的性质的微米级颗粒和/或纳米颗粒(例如金属基纳米颗粒)。
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公开(公告)号:US20080277272A1
公开(公告)日:2008-11-13
申请号:US12159869
申请日:2007-01-03
Applicant: David Kyle Pierce , David A. Bryce , Mark G. Mortenson
Inventor: David Kyle Pierce , David A. Bryce , Mark G. Mortenson
IPC: B01J19/08
CPC classification number: B01J19/088 , B01J2219/0809 , B01J2219/0828 , B01J2219/083 , B01J2219/0841 , B01J2219/0877 , B01J2219/0894 , C02F1/4608 , H05H1/48 , H05H2001/481 , H05H2245/1225
Abstract: This invention relates generally to novel methods for affecting, controlling, and/or directing various reactions with and in various liquids (such as water) by creating an energy field within and/or juxtaposed to at least one surface of said liquid. An important aspect of the invention involves the creation of a plasma, which plasma is created between at least one electrode located above the surface of the liquid and at least a portion of the surface of the liquid itself, which functions as at least one second electrode. In order to permit at least a portion of the surface of the liquid to function effectively as a second electrode, at least one additional electrically conducting electrode is typically located within (e.g., at least partially submerged within) said liquid. The plasma results in a restructuring of the liquid and/or the presence of at least one active species within said liquid.
Abstract translation: 本发明一般涉及通过在所述液体的至少一个表面内和/或并置的能量场来影响,控制和/或指导与各种液体(例如水)的各种反应的新方法。 本发明的一个重要方面涉及等离子体的产生,该等离子体产生在位于液体表面上方的至少一个电极和液体本身表面的至少一部分之间的至少一个电极之间,该电极用作至少一个第二电极 。 为了允许液体的表面的至少一部分有效地作为第二电极起作用,至少一个额外的导电电极通常位于所述液体的内部(例如,至少部分地浸入)内。 等离子体导致液体的重组和/或所述液体中至少一种活性物质的存在。
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公开(公告)号:US20190009342A1
公开(公告)日:2019-01-10
申请号:US16036325
申请日:2018-07-16
Applicant: David Kyle Pierce , Mark Gordon Mortenson , David Andrew Bryce , Adam Robert Dorfman , Mikhail Merzliakov , Arthur Maxwell Grace
Inventor: David Kyle Pierce , Mark Gordon Mortenson , David Andrew Bryce , Adam Robert Dorfman , Mikhail Merzliakov , Arthur Maxwell Grace
Abstract: This invention relates generally to novel methods and novel devices for the continuous manufacture of nanoparticles, microparticles and nanoparticle/liquid solution(s) (e.g., colloids). The nanoparticles (and/or micron-sized particles) comprise a variety of possible compositions, sizes and shapes. The particles (e.g., nanoparticles) are caused to be present (e.g., created and/or the liquid is predisposed to their presence (e.g., conditioned)) in a liquid (e.g., water) by, for example, preferably utilizing at least one adjustable plasma (e.g., created by at least one AC and/or DC power source), which plasma communicates with at least a portion of a surface of the liquid. At least one subsequent and/or substantially simultaneous adjustable electrochemical processing technique is also preferred. Multiple adjustable plasmas and/or adjustable electrochemical processing techniques are preferred. Processing enhancers can be utilized alone or with a plasma. Semicontinuous and batch processes can also be utilized. The continuous processes cause at least one liquid to flow into, through and out of at least one trough member, such liquid being processed, conditioned and/or effected in said trough member(s). Results include constituents formed in the liquid including ions, micron-sized particles and/or nanoparticles (e.g., metallic-based nanoparticles) of novel size, shape, composition, concentration, zeta potential and certain other novel properties present in a liquid.
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10.发明授权Continuous, semicontinuous and batch methods for treating liquids and manufacturing certain constituents (e.g., nanoparticles) in liquids, apparatuses and nanoparticles and nanoparticle/liquid solution(s) and colloids resulting therefrom 有权用于处理液体并在液体,装置和纳米颗粒中制造某些成分(例如纳米颗粒)的连续,半连续和间歇方法以及由此产生的纳米颗粒/液体溶液和胶体
公开(公告)号:US09067263B2
公开(公告)日:2015-06-30
申请号:US13144221
申请日:2010-01-13
Applicant: David Kyle Pierce , Mark Gordon Mortenson , David Andrew Bryce , Adam Robert Dorfman , Mikhail Merzliakov , Arthur Maxwell Grace
Inventor: David Kyle Pierce , Mark Gordon Mortenson , David Andrew Bryce , Adam Robert Dorfman , Mikhail Merzliakov , Arthur Maxwell Grace
CPC classification number: B22F9/20 , B01J19/088 , B01J2219/0809 , B01J2219/0841 , B01J2219/0877 , B01J2219/0894 , B22F2999/00 , B82Y40/00 , C25C1/20 , C25C1/22 , B22F2202/06 , B22F2202/13
Abstract: This invention relates generally to novel methods and novel devices for the continuous manufacture of nanoparticles, microparticles and nanoparticle/liquid solution(s) (e.g., colloids). The nanoparticles (and/or micron-sized particles) comprise a variety of possible compositions, sizes and shapes. The particles (e.g., nanoparticles) are caused to be present (e.g., created and/or the liquid is predisposed to their presence (e.g., conditioned)) in a liquid (e.g., water) by, for example, preferably utilizing at least one adjustable plasma (e.g., created by at least one AC and/or DC power source), which plasma communicates with at least a portion of a surface of the liquid. At least one subsequent and/or substantially simultaneous adjustable electrochemical processing technique is also preferred. Multiple adjustable plasmas and/or adjustable electrochemical processing techniques are preferred. Processing enhancers can be utilized alone or with a plasma. Semicontinuous and batch processes can also be utilized. The continuous processes cause at least one liquid to flow into, through and out of at least one trough member, such liquid being processed, conditioned and/or effected in said trough member(s). Results include constituents formed in the liquid including ions, micron-sized particles and/or nanoparticles (e.g., metallic-based nanoparticles) of novel size, shape, composition, concentration, zeta potential and certain other novel properties present in a liquid.
Abstract translation: 本发明一般涉及用于连续制造纳米颗粒,微粒和纳米颗粒/液体溶液(例如胶体)的新方法和新颖装置。 纳米颗粒(和/或微米尺寸的颗粒)包含各种可能的组合物,尺寸和形状。 引起颗粒(例如,纳米颗粒)存在(例如,通过例如优选利用至少一种的方式在液体(例如水)中存在(例如,产生和/或将液体倾向于其存在(例如,调节)) 可调节的等离子体(例如,由至少一个AC和/或DC电源产生),其等离子体与液体的至少一部分表面连通。 至少一个后续和/或基本上同时可调节的电化学处理技术也是优选的。 多重可调等离子体和/或可调电化学处理技术是优选的。 处理增强剂可以单独使用或与等离子体一起使用。 也可以使用半连续和间歇方法。 连续过程导致至少一种液体流入,通过和流出至少一个槽构件,这种液体在所述槽构件中被处理,调节和/或实现。 结果包括在液体中形成的成分,包括具有新颖尺寸,形状,组成,浓度,ζ电位和存在于液体中的某些其它新特性的离子,微米级颗粒和/或纳米颗粒(例如金属基纳米颗粒)。
