Researchers prepared a series of sugar-based silicone surfactants through hydrosilylation of hydrogen-containing polysiloxane and glucose derivatives. ZHOU et al. prepared a dual-hydrophilic sugar-based silicone surfactant with two hydrophilic groups, sugar-based and polyether, by combining amino-containing siloxane with hydroxyl-terminated polyether and D-(t)-glucolactone, and found that Amphiphilic hydrophilic sugar-based silicone surfactant can reduce the surface tension of water to 20~21 mN/m and has excellent surface activity.
You might like
-
T12 Organotin Catalyst – Driven Process Optimization in Polyurethane Foam Injection Molding
-
Sustainable Use of T12 Organotin Catalyst in Polyurethane Manufacturing: Reducing Environmental Impact
-
T12 Organotin Catalyst: Improving the Chemical Resistance of Polyurethane – Based Products
-
The Role of T12 Organotin Catalyst in Accelerating Cross – Linking Reactions in Polyurethanes
-
Maximizing the Catalytic Efficiency of T12 in Polyurethane Resin Manufacturin
-
T12 Organotin Catalyst in Flexible Polyurethane Foam Production: Balancing Softness and Durability
-
New Insights into the Catalytic Mechanism of T12 Organotin Catalyst in Polyurethane Reactions
-
Enhanced Adhesion in Sealant Formulations Using T12 Organotin Catalyst
-
Optimizing Cure Times in Coatings with T12 Organotin Catalyst: A Technical Deep – Dive
-
T12 Organotin Catalyst: Unleashing Its Full Potential in Polyurethane Elastomer Synthesis
