发明授权
US08540942B2 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

  • 专利标题: Continuous methods for treating liquids and manufacturing certain constituents (e.g., nanoparticles) in liquids, apparatuses and nanoparticles and nanoparticle/liquid solution(s) therefrom
  • 专利标题(中): 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
  • 申请号: US12686815
    申请日: 2010-01-13
  • 公开(公告)号: US08540942B2
    公开(公告)日: 2013-09-24
  • 发明人: David Kyle PierceMark G. MortensonDavid A. Bryce
  • 申请人: David Kyle PierceMark G. MortensonDavid A. Bryce
  • 代理商 Mark G. Mortenson
  • 主分类号: B01J19/08
  • IPC分类号: B01J19/08
Continuous methods for treating liquids and manufacturing certain constituents (e.g., nanoparticles) in liquids, apparatuses and nanoparticles and nanoparticle/liquid solution(s) therefrom
摘要:
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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