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The use of polymers in biological applications is defined by the interactions promoted between living organisms and polymeric chains, which are generally associated with the polymers’ hydrophilic and hydrophobic behaviors. However, these water-friendly structures are also very useful for other applications, such as the adsorption of pollutants from sewage water. The modulation of the final properties of water-soluble and insoluble polymers tends to define the spectra of features associated with their final applications.
poly(lactic acid) --- water emulsions --- water dispersions --- film formation --- waterborne coating --- microcapsule --- self-healing --- core material --- clad ratio --- poly(vinyl alcohol) --- glycerol --- microplastics --- biodegradation --- toxicity --- marine water --- thermoresponsive polymers --- hydrophobic transitions --- lower critical solution temperature --- functionalized materials --- contact angle --- drug delivery --- PBCA --- molecular weights --- biodegradable polymers --- NMR --- Advanced Polymer Chromatography™ --- chitosan --- sustainable development --- circular economy --- biopolymers --- n/a --- Research. --- Biology.
Choose an application
The use of polymers in biological applications is defined by the interactions promoted between living organisms and polymeric chains, which are generally associated with the polymers’ hydrophilic and hydrophobic behaviors. However, these water-friendly structures are also very useful for other applications, such as the adsorption of pollutants from sewage water. The modulation of the final properties of water-soluble and insoluble polymers tends to define the spectra of features associated with their final applications.
Research. --- Biology. --- poly(lactic acid) --- water emulsions --- water dispersions --- film formation --- waterborne coating --- microcapsule --- self-healing --- core material --- clad ratio --- poly(vinyl alcohol) --- glycerol --- microplastics --- biodegradation --- toxicity --- marine water --- thermoresponsive polymers --- hydrophobic transitions --- lower critical solution temperature --- functionalized materials --- contact angle --- drug delivery --- PBCA --- molecular weights --- biodegradable polymers --- NMR --- Advanced Polymer Chromatography™ --- chitosan --- sustainable development --- circular economy --- biopolymers --- poly(lactic acid) --- water emulsions --- water dispersions --- film formation --- waterborne coating --- microcapsule --- self-healing --- core material --- clad ratio --- poly(vinyl alcohol) --- glycerol --- microplastics --- biodegradation --- toxicity --- marine water --- thermoresponsive polymers --- hydrophobic transitions --- lower critical solution temperature --- functionalized materials --- contact angle --- drug delivery --- PBCA --- molecular weights --- biodegradable polymers --- NMR --- Advanced Polymer Chromatography™ --- chitosan --- sustainable development --- circular economy --- biopolymers
Choose an application
The use of polymers in biological applications is defined by the interactions promoted between living organisms and polymeric chains, which are generally associated with the polymers’ hydrophilic and hydrophobic behaviors. However, these water-friendly structures are also very useful for other applications, such as the adsorption of pollutants from sewage water. The modulation of the final properties of water-soluble and insoluble polymers tends to define the spectra of features associated with their final applications.
Research & information: general --- Biology, life sciences --- poly(lactic acid) --- water emulsions --- water dispersions --- film formation --- waterborne coating --- microcapsule --- self-healing --- core material --- clad ratio --- poly(vinyl alcohol) --- glycerol --- microplastics --- biodegradation --- toxicity --- marine water --- thermoresponsive polymers --- hydrophobic transitions --- lower critical solution temperature --- functionalized materials --- contact angle --- drug delivery --- PBCA --- molecular weights --- biodegradable polymers --- NMR --- Advanced Polymer Chromatography™ --- chitosan --- sustainable development --- circular economy --- biopolymers --- n/a --- Research. --- Biology.
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