Two-phase systems in which one is uniformly dispersed in another as particles small enough so they cannot be filtered or will not settle out. The dispersing or continuous phase or medium envelops the particles of the discontinuous phase. All three states of matter can form colloids among each other
Food -- Colloid content -- Congresses : Food polymers, gels and colloids : based on the proceedings of an International Symposium organized by the Food Chemistry Group of the Royal Society of Chemistry at Norwich from 28th-30th March 1990 / edited by Eric Dickinson
Small encapsulated gas bubbles (diameters of micrometers) that can be used as CONTRAST MEDIA, and in other diagnostic and therapeutic applications. Upon exposure to sufficiently intense ultrasound, microbubbles will cavitate, rupture, disappear, release gas content. Such characteristics of the microbubbles can be used to enhance diagnostic tests, dissolve blood clots, and deliver drugs or genes for therapy
Small encapsulated gas bubbles (diameters of micrometers) that can be used as CONTRAST MEDIA, and in other diagnostic and therapeutic applications. Upon exposure to sufficiently intense ultrasound, microbubbles will cavitate, rupture, disappear, release gas content. Such characteristics of the microbubbles can be used to enhance diagnostic tests, dissolve blood clots, and deliver drugs or genes for therapy
Colloids -- Encyclopedias : Encyclopedia of colloid and interface science / edited by Tharwat Tadros
2013
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Colloids -- Environmental aspects : Sol-gel methods for materials processing : focusing on materials for pollution control, water purification, and soil remediation / edited by Plinio Innocenzi, Yuriy L. Zub and Vadim G. Kessler
2008
1
Colloids -- Environmental aspects -- Congresses : Sol-gel methods for materials processing : focusing on materials for pollution control, water purification, and soil remediation / edited by Plinio Innocenzi, Yuriy L. Zub and Vadim G. Kessler
Colloids -- Laboratory manuals. : Chemical modification of proteins / A.N. Glazer, R.J. DeLange and D.S. Sigman. Separation methods for nucleic acids and oligonucleotides / Hannah Gould and H.R. Matthews