Materials & Design (Dec 2021)
Synthesis and characterization of hierarchical porous structure of polydimethylsiloxane (PDMS) sheets via two-step phase separation method
Abstract
This paper reports the synthesis and characterization of the hierarchical porous structure of polydimethylsiloxane (PDMS) sheets. A two-step phase separation synthesis protocol is designed based on a ternary solution of PDMS that contains both a nonsolvent and solvent. Tetrahydrofuran (THF) and Toluene with various mixing ratios are utilized as a solvent phase for inducing two-step phase separation. Two distinct pore size distributions are observed in the cast PDMS sheets. The large pores with an average of 509 µm are formed during the first-step phase separation due to evaporation of THF. The second-step phase separation occurs later at higher temperatures due to evaporation of Toluene, resulting in much smaller pores with an average size of 28 µm. The experimental results reveal that increasing the THF/solvent ratio increases the concentration of large pores and decreases small pore density. Tensile testing of dog bone-shaped porous PDMS sheets shows that the modulus varies between 0.64 and 0.95 MPa, indicating that the synthesis protocol can control the porous structure with a wide range of flexibility while keeping the density constant. An empirical relationship between elastic modulus and pore size is developed, promising in designing the PDMS porous structures for various engineering applications.
