AI Article Synopsis
- The study synthesized a new series of block polyoxybutenol ethers (AEOBO) by combining existing polyoxyethylene components with 1,2-epoxybutane using a semicontinuous method and various analytical techniques for structural analysis.
- Surface tension and diffusion processes were measured before and after synthesis, revealing that the introduction of BO groups significantly lowered the critical micelle concentration and altered the surface properties of the compounds.
- Microscopic analysis showed that all synthesized systems formed spherical aggregates, with the AEOBO variant resulting in smaller aggregate sizes and revealing a faster foam decay process compared to other systems, indicating that the BO group influences the stability and behavior of foams.
Article Abstract
In this study, the AEOBO series of block polyoxybutenol ethers was synthesized by combining the AEO series of polyoxyethylene and preparing 1,2-epoxybutane (BO) block polyether using a semicontinuous method. The synthesis was performed by HPLC, MALDI-TOF-MS, FT-IR, and H NMR for structural analysis. The interaction parameters and surface tension of the systems before and after synthesis were studied using surface tension meter. The diffusion process of the systems before and after synthesis was studied using a KRÜSS bubble pressure tensiometer. The surfactant properties of AEO and AEOBO were evaluated by static and dynamic surface tension measurements. Each system formed a saturated adsorption layer in a water solution. The critical micelle concentration decreased dramatically after the introduction of BO groups, and the diffusion-adsorption process was consistent with the kinetic mechanism of hybrid diffusion. The microscopic self-assembled aggregate micellar behavior of all the systems was investigated using DLS, TEM, and SEM. The micellization process in all systems was spontaneous and enthalpy-driven, forming spherical aggregates, with the BO block reducing the aggregate diameter of the feedstock from 220.06 nm to about one-third of 80.02 nm. In addition, the dynamic contact angle, application, and physicochemical properties such as foaming and foam stabilization of each system were investigated. The contact angle was reduced from 70 to 50° at 120 s of stabilization, with a foam volume of 80 mL in all systems at 200 s. However, the AEOBO showed accelerated foam decay at 500 s, with an increase in the contact angle from 70 to 50° at 200 s, but the AEOBO showed accelerated foam decay at 500 s, with a decrease in the contact angle from 70 to 50° at 120 s stabilization. At 200 s, the foam volume of all systems was 80 mL, but AEOBO showed an accelerated foam decay process, which shows that the BO group can accelerate the foam decay, and the comparative results show that the BO group can also optimize other application properties and physicochemical properties.
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| http://dx.doi.org/10.1021/acs.jpcb.4c05555 | DOI Listing |
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