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Hydroxyl groups, surface, grafted

Introduction of HEMA, and more precisely the introduction of hydroxyl groups using graft polymerization of HEMA onto PHBHV surface in presence of benzoyl peroxide as chemical initiator (BPO), increased the surface hydrophiUcity of PHBHV. The extent of grafting can be modulated by the preparation conditions, particularly the monomer concentration [70]. The most convenient technique for modifying the... [Pg.159]

Chemical Grafting. Polymer chains which are soluble in the suspending Hquid may be grafted to the particle surface to provide steric stabilization. The most common technique is the reaction of an organic silyl chloride or an organic titanate with surface hydroxyl groups in a nonaqueous solvent. For typical interparticle potentials and a particle diameter of 10 p.m, steric stabilization can be provided by a soluble polymer layer having a thickness of - 10 nm. This can be provided by a polymer tail with a molar mass of 10 kg/mol (25) (see Dispersants). [Pg.547]

In this case some of the Sll silica was freeze-dried and degassed at 10-3 Torr and 150°C and then reacted with trichloromethylsilane in the vapour phase this replaced the surface hydroxyl groups by chloro groups. The particles were then redispersed (with the aid of ultrasonics) in a 4 1 volume ratio toluene THF solvent mixture. "Living" polystyrene (PS19), in a similar solvent mixture was then introduced and the grafting reaction allowed to proceed for 24 hr at room temperature. [Pg.288]

In the present work the synthesis of highly dispersed niobium or titanium containing mesoporous molecular sieves catalyst by direct grafting of different niobium and titanium compounds is reported. Grafting is achieved by anchoring the desired compounds on the surface hydroxyl groups located on the inner and outer surface of siliceous MCM-41 and MCM-48 mesoporous molecular sieves. Catalytic activity was evaluated in the liquid phase epoxidation of a-pinene with hydrogen peroxide as oxidant and the results are compared with widely studied titanium silicalites. The emphasis is directed mainly on catalytic applications of niobium or titanium anchored material to add a more detailed view on their structural physicochemical properties. [Pg.328]

After isolation of the hydroxylated polymer P-OH, decomposition of hydroxyl groups at the surface in the presence of ceric ammonium nitrate generated alkoxy radicals (P-O ) which initiated the grafting (Scheme 7b). [Pg.254]

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Grafted surfaces

Hydroxylated surface

Surface grafts

Surface groupings

Surface groups

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