Superhydrophobic Blood‐Repellent Surfaces

Abstract: Superhydrophobic surfaces repel water and, in some cases, other liquids as well. The repellency is caused by topographical features at the nano-/microscale and low surface energy. Blood is a challenging liquid to repel due to its high propensity for activation of intrinsic hemostatic mechanisms, induction of coagulation, and platelet activation upon contact with foreign surfaces. Imbalanced activation of coagulation drives thrombogenesis or formation of blood clots that can occlude the blood flow either on-sit… Show more

“…To prevent cell adhesion, both inside the wells and around the well array (Figure 1f), the Ormocomp surface was made locally hydrophobic and nanoporous by plasma treatments, which have been shown to reduce cell adhesion in previous literature. [ 28,29 ] On the untreated, planar areas, the native Ormocomp surface supported strong adhesion of both cells (Figure 1f) and metals (Figure 1g), which facilitated integration of cell‐compatible gold electrodes for impedance detection. The cell compatibility of native Ormocomp [ 22–26 ] as well as the Ormocomp metallization protocols [ 30 ] has been thoroughly established in previous literature.…”

Simultaneous Culturing of Cell Monolayers and Spheroids on a Single Microfluidic Device for Bridging the Gap between 2D and 3D Cell Assays in Drug Research

“…To prevent cell adhesion, both inside the wells and around the well array (Figure 1f), the Ormocomp surface was made locally hydrophobic and nanoporous by plasma treatments, which have been shown to reduce cell adhesion in previous literature. [ 28,29 ] On the untreated, planar areas, the native Ormocomp surface supported strong adhesion of both cells (Figure 1f) and metals (Figure 1g), which facilitated integration of cell‐compatible gold electrodes for impedance detection. The cell compatibility of native Ormocomp [ 22–26 ] as well as the Ormocomp metallization protocols [ 30 ] has been thoroughly established in previous literature.…”

Simultaneous Culturing of Cell Monolayers and Spheroids on a Single Microfluidic Device for Bridging the Gap between 2D and 3D Cell Assays in Drug Research

“…A thin layer of air is trapped between the solid surface and the liquid, transiting into a Cassie state. 31,32 In this case, an increase in the amount of nano llers employed in the initial mixture produces surfaces with higher contact angle. As shown in Fig.…”

UV-cured nanocomposite coating for surface charging mitigation and breakdown strength enhancement: exploring the combination of surface topographical structure and perfluorooctyl chain

“…For instance, microstructural features with grooves filled with air-packets govern the wetting behavior of microengineered superhydrophobic surfaces. 1 Such behavior has been explained by Cassie-Baxter wetting theory, where liquid droplets make contact only with tips of the grooves, and intact air-packets support the spherical shape of the droplet to provide superhydrophobic properties. 2,3 These methods involve a cumbersome fabrication approach and cannot be applied to biosensing, lab-on-a-chip, blood-repellent, anti-fouling, and selfcleaning applications, which demand a non-textured approach to achieve a superhydrophobic state.…”

Superhydrophobic states of 2D nanomaterials controlled by atomic defects can modulate cell adhesion