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Hydrophobic surfaces adhesion

Affinity to hydrophobic surfaces Adhesion of the tablet coating to cores with hydrophobic substances... [Pg.99]

Increased flexibility Increased dispersing power Increased water sensitivity Increased adhesion to hydrophobic surfaces... [Pg.475]

Most molded plastics have a very smooth, hydrophobic surface that must be modified. Chemical etchants are used to oxidize and roughen the surface. The resultant hydrophilic surface promotes good metal-to-plastic adhesion. The etchant is usually a solution of chromic acid and sulfuric acid pure chromic acid can also be used. [Pg.109]

Hydrophobic polymer materials that slowly release N O can be used on the surface of medical devices. Many medical devices suffer from the surface adhesion of blood platelets. To minimize this thrombogenic effect, blood thinners such as heparin, coumarin, and aspirin are often used. However, systemic administration of antiplatelet agents could increase the risk of uncontrolled bleeding elsewhere in the body. In contrast, biocompatible polymer films would solve this problem [153]. It is possible to create polymeric surfaces that mimic the inner surface of a blood vessel by... [Pg.24]

One path for HIV infection may involve damaged (or healthy) vaginal epithelia [41,42] through cell surface adhesion [40]. Recently it has been reported that the major HIV envelope protein is held intact through hydrophobic residues [43]. For these and other reasons, we sought to combine hydrophobe substituted cationic polymers, particularly DCEs with active anionic polymers, with or without N9 present. [Pg.225]

Note that many of these surface reactions involve the conversion of a hydrophophic polymer to one with a hydrophilic surface or vice versa. For example, the replacement of trifluoroethoxy groups at the interface by hydroxyl units changes a non-adhesive, highly hydrophobic surface to an adhesive hydrophilic one. Variations in the reaction conditions allow both the depth of transformation and the ratios of the initial to the new surface groups to be controlled. A possible complication that needs to be kept in mind for all of these surface transformations is that polymer molecular motions may bury the newly introduced functional units if the polymer comes into contact with certain media. For example, a hydrophilic surface on a hydrophobic polymer may become buried when that surface is exposed to dry air or a hydrophobic liquid. But this process can be reversed by exposure to a hydrophilic liquid. [Pg.84]

In one report, Pluronics surfactant (tri-block copolymer of PEO-PPO-PEO) was used to prevent cell adhesion in a chip. This is because the center PPO block is hydrophobic and thus shields any hydrophobic surface on the chip. In addition, the end PEO groups are neutral but very hydrophilic, and will not interact with proteins and cells [278]. [Pg.292]

The hydrophobias are a case where protein nanofibers can play a dual role in creating a biosensor. They can aid in the immobilization of bioactive components within a biosensor and also add further functionality to the transducing element of a biosensor device. Hydrophobins are self-assembling [3-sheet structures observed on the hyphae of filamentous fungi. They are surface active and aid the adhesion of hyphae to hydrophobic surfaces (Corvis et al., 2005). These properties can be used to create hydrophobia layers on glass electrodes. These layers can then facilitate the adsorption of two model enzymes glucose oxidase (GOX) and hydrogen peroxidase (HRP) to the electrode surface. The hydrophobin layer also enhances the electrochemical properties of the electrodes. [Pg.194]

Parylene N to smooth surface materials has been reported with the application of plasma depositions [13,14]. It was reported that excellent adhesion of Parylene C coating to a cold-rolled steel surface was achieved using plasma polymer coatings, in turn giving rise to corrosion protection of the metal [15]. Another major deficiency of Parylene C is its poor painting properties when paint is applied on a Parylene C film, due to its extremely hydrophobic surface. Because of this, surface modification of Parylene films is necessary to enhance their adhesion performance with spray primers. [Pg.632]

Activation of Clotting and Adhesion of Platelets. It has been reported (45) that all uncharged hydrophobic surfaces adsorb the same proteins from plasma in the same undestructive way, but the adsorbed proteins are yet unidentified. [Pg.257]

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See also in sourсe #XX -- [ Pg.131 ]



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Adhesives surface adhesion

Hydrophobic adhesives

Hydrophobic surfaces

Surface Hydrophobation

Surface adhesion

Surface hydrophobicity

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