Performance Evaluation of an Improved Particle Size Magnifier (PSM) for Single Nanoparticle Detection

Several modifications of the particle size magnifier (PSM) developed by Okuyama et al. have been introduced recently for detection of particles at diameters of 1 nm and below. However, their evaluation has been incomplete. Here we provide the first direct measurements of counting efficiencies near u...

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Published in	Aerosol science and technology Vol. 37; no. 10; pp. 791 - 803
Main Authors	Kim, Chan Soo, Okuyama, Kikuo, de la Mora, Juan Fernández
Format	Journal Article
Language	English
Published	London Taylor & Francis Group 01.10.2003 Taylor & Francis
Subjects	Aerosols Chemistry Colloidal state and disperse state Exact sciences and technology General and physical chemistry General, apparatus, technics of preparation Performance evaluation Aerosols Instrumentation Particle size Detection Nanoparticle
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Abstract	Several modifications of the particle size magnifier (PSM) developed by Okuyama et al. have been introduced recently for detection of particles at diameters of 1 nm and below. However, their evaluation has been incomplete. Here we provide the first direct measurements of counting efficiencies near unity below 2 nm. We use the modified PSM described by Sgro and Fernández de la Mora, which separates thermally the PSM's original vapor generator from the water-cooled growth chamber by means of a narrow and short T where turbulent mixing with the aerosol takes place. The counting efficiency is seen to depend greatly on the aerosol flow, the amount of vapor, and temperature. With ethylene glycol vapor, under optimal conditions, the counting efficiency is 100% down to 1.6 nm (actual diameter of 1.2 nm), and negative particles are more easily activated than positive particles. The improved PSM is applied to the measurement of gold nanoparticle size distributions, and the results show it is a powerful aerosol detector for nanoparticles.
AbstractList	Several modifications of the particle size magnifier (PSM) developed by Okuyama et al. have been introduced recently for detection of particles at diameters of 1 nm and below. However, their evaluation has been incomplete. Here we provide the first direct measurements of counting efficiencies near unity below 2 nm. We use the modified PSM described by Sgro and Fernández de la Mora, which separates thermally the PSM's original vapor generator from the water-cooled growth chamber by means of a narrow and short T where turbulent mixing with the aerosol takes place. The counting efficiency is seen to depend greatly on the aerosol flow, the amount of vapor, and temperature. With ethylene glycol vapor, under optimal conditions, the counting efficiency is 100% down to 1.6 nm (actual diameter of 1.2 nm), and negative particles are more easily activated than positive particles. The improved PSM is applied to the measurement of gold nanoparticle size distributions, and the results show it is a powerful aerosol detector for nanoparticles.
Author	Okuyama, Kikuo de la Mora, Juan Fernández Kim, Chan Soo
Author_xml	– sequence: 1 givenname: Chan Soo surname: Kim fullname: Kim, Chan Soo organization: Department of Chemical Engineering, Graduate School of Engineering , Hiroshima University – sequence: 2 givenname: Kikuo surname: Okuyama fullname: Okuyama, Kikuo organization: Department of Chemical Engineering, Graduate School of Engineering , Hiroshima University – sequence: 3 givenname: Juan Fernández surname: de la Mora fullname: de la Mora, Juan Fernández organization: Mechanical Engineering Department , Yale University
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Title	Performance Evaluation of an Improved Particle Size Magnifier (PSM) for Single Nanoparticle Detection
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