3 lines
6.5 KiB
JSON
3 lines
6.5 KiB
JSON
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"content": "The monomer structures used for synthesizing hydrophilic polymers include diols with polyethylene oxide side chain segments, dihydroxy-carboxylic acids, and polyols with main chain segments of polyethylene oxide or polypropylene oxide, where the presence of hydroxyl and carboxylic functional groups on these monomers enhances hydrophilicity by promoting hydrogen bonding and ionic interactions with water.The third polyol component used for synthesizing hydrophilic polymers includes a diol with polyethylene oxide side chain segments that enhances hydrophilicity through the presence of ether functional groups, which increase interactions with water by forming hydrogen bonds.The synthesis of hydrophilic polymers involves using monomers like hydrophilic polyols which contain functional groups such as hydroxyl groups that enhance polymer hydrophilicity by forming hydrogen bonds with water, improving interactions that lead to better dispersibility and anti-fogging properties of the resulting polyurethane coating.The monomers used for synthesizing hydrophilic polymers include polyols such as diols and triols with main chain segments of polyethylene oxide or polypropylene oxide, which enhance hydrophilicity through hydroxyl functional groups that promote strong interactions with water via hydrogen bonding.The text excerpt does not provide specific details about the monomer structures or the functional groups that enhance the hydrophilicity of the corresponding polymers.The monomers used for synthesizing hydrophilic polymers include polyethylene glycol (PEG) and polyethylene oxide (PEO), both of which possess hydroxyl functional groups that enhance hydrophilicity by forming hydrogen bonds with water molecules, thus increasing water interaction and solubility in the resulting polymers.The synthesis of hydrophilic polymers involves monomers with functional groups such as polyethylene oxide side chains and neutralized amines, which enhance hydrophilicity by promoting stronger interactions with water through hydrogen bonding and ionic interactions, respectively.The synthesis of hydrophilic polymers involves the use of dimethylolpropionic acid, which contains carboxylic acid functional groups that enhance hydrophilicity by increasing the polymer’s interaction with water through hydrogen bonding and ionic interactions, and polyethylene oxide side chains, which provide additional hydrophilicity due to the ether functional groups that facilitate the formation of hydrogen bonds with water molecules.The monomers used for synthesizing the hydrophilic polymers include trimethylolpropane and dimethylolpropionic acid, where the hydroxyl groups in trimethylolpropane and the carboxylic acid group in dimethylolpropionic acid enhance the hydrophilicity of the polymers by promoting intermolecular hydrogen bonding and ionic interactions with water.The polyurethane used in the synthesis of hydrophilic polymers contains polyethylene oxide side chains and main chains, which enhance hydrophilicity due to their ether functional groups that increase hydrogen bonding and interactions with water.The synthesis of hydrophilic polymers involves monomers such as dimethylolpropionic acid and polyethylene oxide, which contain carboxylic acid and ether functional groups respectively, enhancing their hydrophilicity by enabling hydrogen bonding and increasing interactions with water.The hydrophilic properties of the synthesized polyurethane are attributed to the presence of polyethylene oxide side chains and main chains, which contain hydroxyl and ether functional groups that enhance interactions with water through hydrogen bonding and increased solubility.The monomers used for synthesizing the hydrophilic polymers include polyethylene oxide side chains and main chains, which contain ether functional groups that enhance the hydrophilicity of the resulting polyurethane by forming hydrogen bonds with water molecules, thereby increasing water affinity and solubility.The monomers used for synthesizing hydrophilic polymers include polyethylene oxide side chains and main chains, which contain ether functional groups that enhance hydrophilicity by increasing the polymer's interactions with water through hydrogen bonding and enhanced solubility.The synthesized hydrophilic polymers include polyethylene oxide side chains and main chains, which enhance hydrophilicity through their ether functional groups that interact favorably with water via hydrogen bonding and dipole-dipole interactions.The synthesis of hydrophilic polymers includes monomers with polyethylene oxide side chains and main chains, which contain hydroxyl and ether functional groups that enhance hydrophilicity through increased hydrogen bonding and dipole-dipole interactions with water.The synthesis of the hydrophilic polyurethane involves monomers such as polyethylene oxide side chains, which possess functional groups that enhance hydrophilicity through their ability to form hydrogen bonds and increase water solubility, thereby enhancing interactions with water.The polyurethane synthesized includes polyethylene oxide side chains, which contain functional groups that enhance hydrophilicity through increased interactions with water due to the ether linkages within the polyethylene oxide structure, allowing for improved water solubility and dispersion.The polyurethane mixture includes polyethylene oxide side chains, which contain hydrophilic functional groups that enhance the hydrophilicity of the polymers by increasing their affinity for water through hydrogen bonding and solvation interactions.The hydrophilic properties of the synthesized polyurethane are enhanced by the presence of functional groups such as the polyethylene oxide side chains and neutralized amine groups, which facilitate interactions with water through hydrogen bonding and ionic interactions, respectively.The polyurethane used for synthesis includes polyethylene oxide side chains, which possess hydrophilic functional groups that enhance interactions with water by promoting hydrogen bonding and increasing water affinity, thereby increasing the overall hydrophilicity of the resulting polymer.The monomers used for synthesizing hydrophilic polymers include alkyl betaine with unbranched alkyl groups having about 8 to 18 carbon atoms, quaternary ammonium surfactants with 2 hydrophilic isocyanate-reactive functional groups such as hydroxyethyl and hydrophobic chains with at least 18 carbon atoms; these functional groups enhance hydrophilicity by providing ionic interactions with water, facilitating increased solubility and water absorption."
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