Modification of polymer blend properties by argon plasma/electron beam treatment: surface properties

“…The modification of polymer surfaces based on physical or chemical methods including those employing plasma [1][2][3][4][5][6][7], corona discharge [8][9][10][11], ultraviolet (UV) light [7,[10][11][12], ion beams or bombardment [13][14][15], γ -radiation [16][17][18], or chemical solutions [19][20][21] has been widely performed in order to improve macroscopic surface properties such as wettability, chemical reactivity, printability, biocompatibility, and coating adhesion. In most cases, the hydrophobic polymer surface becomes highly hydrophilic due to the formation of oxygen-containing functional groups on its surface.…”

The hydrophilization of polystyrene substrates by 172-nm vacuum ultraviolet light

“…The modification of polymer surfaces based on physical or chemical methods including those employing plasma [1][2][3][4][5][6][7], corona discharge [8][9][10][11], ultraviolet (UV) light [7,[10][11][12], ion beams or bombardment [13][14][15], γ -radiation [16][17][18], or chemical solutions [19][20][21] has been widely performed in order to improve macroscopic surface properties such as wettability, chemical reactivity, printability, biocompatibility, and coating adhesion. In most cases, the hydrophobic polymer surface becomes highly hydrophilic due to the formation of oxygen-containing functional groups on its surface.…”

The hydrophilization of polystyrene substrates by 172-nm vacuum ultraviolet light

“…Apesar do grande número de publicações sobre compatibilização de blendas de poliolefinas com PS [3][4][5][7][8][9][10][11][12]14] , foram muito raros os estudos encontrados sobre pares poliolefinas/ HIPS [6,13] . Entretanto, o poliestireno de alto impacto e o expandido (EPS) estão entre os materiais com maior participação na composição dos resíduos plásticos urbanos, ao contrá-rio do poliestireno homopolímero PS, de forma que estudos com HIPS são importantes quando se trata da reciclagem de poliestireno pós-consumo.…”

“…No sentido de obter controle, soma e até sinergia de propriedades, blendas binárias e ternárias têm sido amplamente pesquisadas utilizando-se diferentes aditivos e métodos de compatibilização. Dentre elas, as de poliolefinas com PS e HIPS podem ser destacadas [2][3][4][5][6][7][8][9][10][11][12][13][14] . Para compatibilização, copolímeros em bloco com variados comonômeros, composição, peso molecular e estrutura, em conjunto ou não com processos reativos, são os mais estudados.…”

Efeito da adição de diferentes copolímeros em blendas HDPE/HIPS pós-consumo: morfologia de fases e propriedades térmicas

“…Surface modifications of polymer surfaces have been widely performed using plasma, [10][11][12][13][14][15] corona discharge, 16,17 ultraviolet (UV) light, 17,18 ion beams 19 or bombardment, [20][21][22] g-radiation, [23][24][25] and chemical solutions [26][27][28] to modify macroscopic surface properties, such as wettability, friction, adhesion, biocompatibility, molecular recognition and LC alignment. In most cases, the formation of oxygen-containing functional groups, such as -OH and -COOH, occurs on the polymer surfaces.…”

A versatile photochemical procedure to introduce a photoreactive molecular layer onto a polyimide film for liquid crystal alignment