Radiolytically induced formation and optical absorption spectra of colloidal silver nanoparticles in supercritical ethane

Nada M. Dimitrijevic; David M. Bartels; Charles D. Jonah; Kenji Takahashi; Tijana Rajh

doi:10.1021/jp0028296

Radiolytically induced formation and optical absorption spectra of colloidal silver nanoparticles in supercritical ethane

Nada M. Dimitrijevic, David M. Bartels, Charles D. Jonah, Kenji Takahashi, Tijana Rajh

Research output: Contribution to journal › Article › peer-review

127 Scopus citations

Abstract

Colloidal silver nanoparticles were synthesized in supercritical ethane at 80 °C and 80-120 bar, with methanol as cosolvent. Solvated electrons, produced by a pulse of 20 MeV electrons, reduced the silver ions. The time-resolved technique of pulse radiolysis was employed to characterize the reduction products and colloidal metallic particles. The absorption spectra of small silver clusters (Ag₂⁺, Ag₃⁺, Ag₄²⁺, etc.) were detected at short times after the pulse. Colloidal metallic silver particles were identified by their characteristic plasmon absorption at 1 -10 s after the pulse. Colloidal particles are stable for hours in supercritical ethane. The particles are less than 10 nm in diameter. Their size was determined using transmission electron microscope after precipitation from the solution.

Original language	English (US)
Pages (from-to)	954-959
Number of pages	6
Journal	Journal of Physical Chemistry B
Volume	105
Issue number	5
DOIs	https://doi.org/10.1021/jp0028296
State	Published - Feb 8 2001
Externally published	Yes

ASJC Scopus subject areas

Physical and Theoretical Chemistry
Surfaces, Coatings and Films
Materials Chemistry

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title = "Radiolytically induced formation and optical absorption spectra of colloidal silver nanoparticles in supercritical ethane",

abstract = "Colloidal silver nanoparticles were synthesized in supercritical ethane at 80 °C and 80-120 bar, with methanol as cosolvent. Solvated electrons, produced by a pulse of 20 MeV electrons, reduced the silver ions. The time-resolved technique of pulse radiolysis was employed to characterize the reduction products and colloidal metallic particles. The absorption spectra of small silver clusters (Ag2+, Ag3+, Ag42+, etc.) were detected at short times after the pulse. Colloidal metallic silver particles were identified by their characteristic plasmon absorption at 1 -10 s after the pulse. Colloidal particles are stable for hours in supercritical ethane. The particles are less than 10 nm in diameter. Their size was determined using transmission electron microscope after precipitation from the solution.",

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T1 - Radiolytically induced formation and optical absorption spectra of colloidal silver nanoparticles in supercritical ethane

AU - Dimitrijevic, Nada M.

AU - Bartels, David M.

AU - Jonah, Charles D.

AU - Takahashi, Kenji

AU - Rajh, Tijana

PY - 2001/2/8

Y1 - 2001/2/8

N2 - Colloidal silver nanoparticles were synthesized in supercritical ethane at 80 °C and 80-120 bar, with methanol as cosolvent. Solvated electrons, produced by a pulse of 20 MeV electrons, reduced the silver ions. The time-resolved technique of pulse radiolysis was employed to characterize the reduction products and colloidal metallic particles. The absorption spectra of small silver clusters (Ag2+, Ag3+, Ag42+, etc.) were detected at short times after the pulse. Colloidal metallic silver particles were identified by their characteristic plasmon absorption at 1 -10 s after the pulse. Colloidal particles are stable for hours in supercritical ethane. The particles are less than 10 nm in diameter. Their size was determined using transmission electron microscope after precipitation from the solution.

AB - Colloidal silver nanoparticles were synthesized in supercritical ethane at 80 °C and 80-120 bar, with methanol as cosolvent. Solvated electrons, produced by a pulse of 20 MeV electrons, reduced the silver ions. The time-resolved technique of pulse radiolysis was employed to characterize the reduction products and colloidal metallic particles. The absorption spectra of small silver clusters (Ag2+, Ag3+, Ag42+, etc.) were detected at short times after the pulse. Colloidal metallic silver particles were identified by their characteristic plasmon absorption at 1 -10 s after the pulse. Colloidal particles are stable for hours in supercritical ethane. The particles are less than 10 nm in diameter. Their size was determined using transmission electron microscope after precipitation from the solution.

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Radiolytically induced formation and optical absorption spectra of colloidal silver nanoparticles in supercritical ethane

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