Ultrastable silver nanoparticles

Desireddy, Anil; Conn, Brian E.; Guo, Jingshu; Yoon, Bokwon; Barnett, Robert N.; Monahan, Bradley M.; Kirschbaum, Kristin; Griffith, Wendell P.; Whetten, Robert L.; Landman, Uzi; Bigioni, Terry P.

Ultrastable silver nanoparticles

Anil Desireddy, Brian E. Conn, Jingshu Guo, Bokwon Yoon, Robert N. Barnett, Bradley M. Monahan, Kristin Kirschbaum, Wendell P. Griffith, Robert L. Whetten, Uzi Landman and Terry P. Bigioni ()
Additional contact information
Anil Desireddy: University of Toledo
Brian E. Conn: University of Toledo
Jingshu Guo: University of Toledo
Bokwon Yoon: School of Physics, Georgia Institute of Technology
Robert N. Barnett: School of Physics, Georgia Institute of Technology
Bradley M. Monahan: University of Toledo
Kristin Kirschbaum: University of Toledo
Wendell P. Griffith: University of Toledo
Robert L. Whetten: School of Chemistry and Biochemistry, Georgia Institute of Technology
Uzi Landman: School of Physics, Georgia Institute of Technology
Terry P. Bigioni: University of Toledo

Nature, 2013, vol. 501, issue 7467, 399-402

Abstract: Silver nanoparticles are susceptible to oxidation and have accordingly received less attention than gold nanoparticles; ultrastable silver nanoparticles are now reported, which can be produced in very large quantities as a single-sized molecular product, and the origins of their enhanced stability are elucidated using a single-crystal X-ray structure and first-principles calculations.

Date: 2013
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DOI: 10.1038/nature12523

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