VYKOUKAL, Vít, Jiří PINKAS, Jiří BURŠÍK and Pavla ROUPCOVÁ. Solvothermal hot injection AgNi nanoalloy preparation. In French-Czech “Vltava” Chemistry Meetings. 2015.
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Basic information
Original name Solvothermal hot injection AgNi nanoalloy preparation
Name in Czech Solvotermální příprava nanoslitiny AgNi metodou horkého vstřikování
Authors VYKOUKAL, Vít, Jiří PINKAS, Jiří BURŠÍK and Pavla ROUPCOVÁ.
Edition French-Czech “Vltava” Chemistry Meetings, 2015.
Other information
Original language English
Type of outcome Conference abstract
Field of Study 10402 Inorganic and nuclear chemistry
Country of publisher Czech Republic
Confidentiality degree is not subject to a state or trade secret
Organization unit Faculty of Science
Keywords (in Czech) nanočástice; slitina; stříbro; nikl; DLS; SAXS; TEM;
Keywords in English nanoparticles; alloy; silver; nickel; DLS; SAXS; TEM;
Changed by Changed by: prof. RNDr. Jiří Pinkas, Ph.D., učo 627. Changed: 18/3/2016 17:52.
Abstract
Chemical synthesis of nanomaterials is a very progressive field of study. Preparation of nanoalloys is a challenging task due to their chemical, phase, and morphological variability. Nanoparticles of metal alloys exhibit many interesting properties, such as depression of melting point,1,2,3 plasmon resonance4,5, magnetism, and catalytic activity. For nanoalloys preparation, the solvothermal synthesis, specifically in oleylamine is highly advantageous.6,7 Hot injection technique should ensure homogeneous conditions for nanoparticles nucleation and growth. AgNi nanoparticles were prepared by injection of an oleylamine solution (4 cm3) of AgNO3 and Ni(acac)2 (different ratios, 4 mmol total amount) to a mixture of oleylamine (16 cm3) and octadecene (20 cm3) at 230 °C. After 10 minutes, the reaction mixture was cooled down to room temperature in a water bath. Then 20 cm3of acetone was added and the mixture was centrifuged. Acetone was added to increase the yield. The precipitate was washed by a mixture of hexane and acetone (1:3 volume ratio). This procedure was repeated twice and finally the precipitate was dispersed in hexane and characterized. Dynamic Light Scattering (DLS), Transmission Electron Microscopy (TEM), and Small-Angle X-ray Scattering (SAXS) analyses were carried out for determination of average size, size distribution, and shape of prepared nanoparticles. Obtained results were mutually compared. Thermal behavior was characterized by Differential Scanning Calorimetry (DSC). Plasmon resonances were observed and we found out that the intensity of plasmon resonance was dependent on the molar ratio of AgNi in the particles.
Links
ED1.1.00/02.0068, research and development projectName: CEITEC - central european institute of technology
GA14-12653S, research and development projectName: Stabilita a fázové rovnováhy binárních nanočástic kovů (Acronym: Bimetal_nano)
Investor: Czech Science Foundation
LD11046, research and development projectName: Fázové diagramy nanoslitin, jejich výpočty a ověření. (Acronym: PHADINANOAL)
Investor: Ministry of Education, Youth and Sports of the CR
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