Photomelting and photofragmentation of silver nanoparticles suspended in ethanol

J. G. Ortega-Mendoza, C. Hernández-Álvarez, A. Padilla-Vivanco, C. Toxqui-Quitl, P. Zaca-Morán, F. Chávez, O. Goiz
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Abstract

An optical method to obtain a colloidal solution starting from a mixture of silver nanopowder and ethanol is presented. The particles of the silver nanopowder do not exhibit a specific shape, however in the colloidal solution are spherical. This method is carry out when the mixture is irradiated with a pulsed laser at 532 nm via optical fiber. Due to a stronger absorption of the laser light by silver nanoparticles arise both photofragmentation and photomelting processes. The photomelting process starts when the laser energy is 5 mJ/cm2, inducing an enlargement of nanoparticles whereas the photofragmentation occurs when the laser energy is 25 mJ/cm2 causing a reduction on their sizes (the higher energy is, the smaller nanoparticles are). Results show that it is possible to obtain a colloidal silver solution and to control the particle size by adjusting the laser energy. Experiments were performed at 5 and 25 mJ/cm2, and the results are presented.
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悬浮在乙醇中的银纳米粒子的光熔化和光破碎
提出了一种从纳米银粉和乙醇的混合物中获得胶体溶液的光学方法。银纳米粉的颗粒不表现出特定的形状,但在胶体溶液中是球形的。该方法是在532 nm脉冲激光经光纤照射混合物时进行的。由于银纳米粒子对激光的吸收更强,产生了光破碎和光熔化过程。当激光能量为5 mJ/cm2时,光熔化过程开始,导致纳米颗粒增大,而当激光能量为25 mJ/cm2时,光破碎过程发生,导致纳米颗粒尺寸减小(能量越高,纳米颗粒越小)。结果表明,通过调节激光能量可以获得胶体银溶液,并可以控制颗粒大小。分别在5和25 mJ/cm2下进行了实验,并给出了实验结果。
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