AI Article Synopsis
- The study presents a method to create hexagonally close-packed Langmuir-Blodgett monolayers using stearic acid and methanol as co-surfactants and co-solvents.
- The optimal concentrations and solvent ratios vary based on particle size, with specific concentrations for particles of 140 nm, 300 nm, and 550 nm.
- Results show that adding stearic acid enhances interparticle repulsion without affecting hydrophobicity, leading to more compressible monolayers with larger domains of silica particles.
Article Abstract
We describe a controllable method to fabricate hexagonally close-packed Langmuir-Blodgett (LB) monolayers with stearic acid (SA) as co-surfactant and methanol as co-solvent. The optimal SA concentrations and volume ratios of chloroform to methanol are 0.8 mg/mL and 3:1 for particles of 140 nm, 0.50 mg/mL and 4:1 for particles of 300 nm, and 0.05 mg/mL and 5:1 for particles of 550 nm, respectively. Additionally, SEM detections of the monolayers transferred at different surface pressures indicate that the monolayers deposited from the binary systems are more compressible. The experimental results indicate that the interparticle repulsions and particle-water interactions can be enhanced without decreasing the particle hydrophobicity by adding SA and methanol; thus, particulate monolayers with large hexagonally close-packed domains composed of small silica particles can be successfully fabricated using LB technique. We propose that the enhanced interparticle repulsion is attributed to the Columbic repulsion resulting from the attachment of SA molecules to the CTAB modified particles around the three phase contact line.
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