TY - JOUR
T1 - Microwave-polyol process for metal nanophases
AU - Komarneni, Sridhar
AU - Katsuki, Hiroaki
AU - Li, Dongsheng
AU - Bhalla, Amar S.
PY - 2004/4/14
Y1 - 2004/4/14
N2 - The microwave-assisted polyol process was investigated for the synthesis of several nanophase metals under different conditions in the temperature range of 100 to 200°C. Nanophase Ag metal particle synthesis using ethylene glycol (EG) was carried out at 100 and 150°C in the presence of polyvinyl pyrrolidone (PVP), dodecyl amine (DDA), oleic acid (OA) or trioctylphosphine (TOP) to determine whether particle size and shape can be controlled. The Ag particle size was changed with different capping agents. The use of PVP led to well defined Ag nanoparticles in the range of about 30-50 nm. Morphologically well defined nanophase metals of Fe, Co and Ni were produced in the presence of both PVP and DDA, while the use of just PVP or PVP and TOP did not yield such particles. The results presented here show that a variety of well defined nanophase metals can be produced by using the microwave-polyol process and optimizing the metal capping agents.
AB - The microwave-assisted polyol process was investigated for the synthesis of several nanophase metals under different conditions in the temperature range of 100 to 200°C. Nanophase Ag metal particle synthesis using ethylene glycol (EG) was carried out at 100 and 150°C in the presence of polyvinyl pyrrolidone (PVP), dodecyl amine (DDA), oleic acid (OA) or trioctylphosphine (TOP) to determine whether particle size and shape can be controlled. The Ag particle size was changed with different capping agents. The use of PVP led to well defined Ag nanoparticles in the range of about 30-50 nm. Morphologically well defined nanophase metals of Fe, Co and Ni were produced in the presence of both PVP and DDA, while the use of just PVP or PVP and TOP did not yield such particles. The results presented here show that a variety of well defined nanophase metals can be produced by using the microwave-polyol process and optimizing the metal capping agents.
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U2 - 10.1088/0953-8984/16/14/043
DO - 10.1088/0953-8984/16/14/043
M3 - Article
AN - SCOPUS:2142651577
SN - 0953-8984
VL - 16
SP - S1305-S1312
JO - Journal of Physics Condensed Matter
JF - Journal of Physics Condensed Matter
IS - 14
ER -