Results: 5

1.
Figure 1

Figure 1. From: Thermal diffusivity measurement of spherical gold nanofluids of different sizes/concentrations.

Cross section of the photoacoustic experimental system.

Gerardo A López-Muñoz, et al. Nanoscale Res Lett. 2012;7(1):423-423.
2.
Figure 5

Figure 5. From: Thermal diffusivity measurement of spherical gold nanofluids of different sizes/concentrations.

Thermal diffusivity enhancement ratio with gold nanofluid concentration. The nanoparticle average diameters were 55 and 83 nm.

Gerardo A López-Muñoz, et al. Nanoscale Res Lett. 2012;7(1):423-423.
3.
Figure 3

Figure 3. From: Thermal diffusivity measurement of spherical gold nanofluids of different sizes/concentrations.

UV–vis absorption spectra and absorption shift of gold nanoparticles. (A) UV–vis absorption spectrum of the synthetized gold nanoparticles. (B) Shift in absorption λrps of gold nanoparticles with particle size.

Gerardo A López-Muñoz, et al. Nanoscale Res Lett. 2012;7(1):423-423.
4.
Figure 2

Figure 2. From: Thermal diffusivity measurement of spherical gold nanofluids of different sizes/concentrations.

Representative TEM images and size distributions of the six particle sizes obtained. (A) 16 (seeds), (B) 55, (C) 63, (D) 83, (E) 99, and (F) 125 nm.

Gerardo A López-Muñoz, et al. Nanoscale Res Lett. 2012;7(1):423-423.
5.
Figure 4

Figure 4. From: Thermal diffusivity measurement of spherical gold nanofluids of different sizes/concentrations.

Thermal diffusivity decrease ratio with gold nanoparticle size. The nanoparticle concentration was 0.1 mg/ml. The inset shows (left to right) the different size nanofluids of 16 (seeds), 55, 63, 83, 99 and 125 nm.

Gerardo A López-Muñoz, et al. Nanoscale Res Lett. 2012;7(1):423-423.

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