Hae Jin Jo scite author profile

Water-based drilling mud (WBM) is a non-Newtonian fluid that has a variety of applications such as in transporting cuttings during drilling, protecting the borehole, and cooling the drill bit. With the development of nano-technology, various nanoparticles have been synthesized and have been added to WBM to improve its performance. Shear thinning is the most important factor in drilling mud and this attribute can be improved when two-dimensional particles are added. MoS2 nanoparticles, which represent a typical two-dimensional material, are easy to synthesize in large quantities and have a high thermal conductivity and low coefficient of friction. Since the two-dimensional structure, thermal conductivity, and low coefficient of friction of MoS2 would improve the performance of WBM, we experimented with MoS2 nanosheets as an additive, under optimal conditions, using various samples each with uniform sizes and thicknesses of nanosheets. A large amount of MoS2 nanosheets was synthesized, sorted by thickness and diameter, and added to drilling mud. The diameter of MoS2 was divided into a small diameter group (about 100–400 nm) and a big diameter group (about 300–650 nm), and the thickness was divided into 1–2 nm and 5–10 nm groups. Experimental results showed that when MoS2 is added to WBM, shear thinning occurs more strongly. In addition, the addition of MoS2 with a thickness of 1–2 nm and a diameter of 300–650 nm resulted in the highest increase in viscosity and thermal conductivity of WBM. As a result, we experimentally confirmed that MoS2 can be used as an additive to increase the thermal conductivity and viscosity of WBM and to make shear thinning phenomenon more.

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Sensitive determination of adenosine disodium triphosphate in soil, milk, and pharmaceutical formulation by enoxacin–europium (III) fluorescence complex in solution

Alam

Kamruzzaman

Lee

et al. 2012

Journal of Luminescence

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Process viscometry in flows of non-Newtonian fluids using an anchor agitator

Jang

Kim

et al. 2017

Korea-Aust. Rheol. J.

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Silver Nanoparticles Enhanced Luminescence of Terbium Complex in Solution for L-Dopa Determination

Alam¹,

Kamruzaman²,

Lee³

et al. 2012

j nanosci nanotechnol

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Luminescent properties of a terbium (Tb3+)-L-3, 4-dihydroxyphenylalanine (L-dopa) complex by binding to colloidal silver nanoparticles (Ag NPs) have been presented. Luminescence intensity of the L-dopa complex was dramatically enhanced about 6-7 times by introducing Ag NPs. The Ag NPs concentration on the luminescent intensity was regarded as a main factor that balancing between an enhancing and a quenching effect of the Ag NPs. It was observed that changing the concentration of L-dopa causes the change in luminescence intensity. Under the optimized condition, the luminescence intensity of the system was linearly related to the concentration of L-dopa. Based on this observation, L-dopa-Tb3+ complex containing Ag NPs has been applied for the determination of L-dopa in pharmaceutical formulation. Linear responses of luminescence intensity were observed in the concentration range of 0.25 to 1.5 nM (r = 0.9934) of L-dopa with limit of detection 0.042 nM. The performance of the system was tested using 1.0 x 10(-9) M of L-dopa, yielding a precision of 1.21% RSD for nine replicate measurements. The present method has been successfully applied to determine L-dopa in pharmaceutical samples.

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Hae Jin Jo

Determination of catecholamines based on the measurement of the metal nanoparticle-enhanced fluorescence of their terbium complexes

Influence of MoS2 Nanosheet Size on Performance of Drilling Mud

Sensitive determination of adenosine disodium triphosphate in soil, milk, and pharmaceutical formulation by enoxacin–europium (III) fluorescence complex in solution

Process viscometry in flows of non-Newtonian fluids using an anchor agitator

Silver Nanoparticles Enhanced Luminescence of Terbium Complex in Solution for L-Dopa Determination

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