Matches in Nanopublications for { ?s ?p ?o <https://w3id.org/sciencelive/np/RAQEV5MqXYFW6Ty74gtYbBesuq2pqDKkTYl-ZROm4pszw/assertion>. }
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- Under%20simulations%20of%20biofilm%20pH%20conditions%2C%20the%20mannose%20modified%20nanoparticle%20%28PDM%2090%2F5%2F5%29%20displayed%20ideal%20charge%20reversal%20from%20a%20neutral%20%28%2B1.69%20%C2%B1%201.83%20mV%29%20to%20a%20cationic%20surface%20potential%20%28%2B17.18%20%C2%B1%202.16%20mV%29%20to%20improve%20bacteria%20binding%20and%20biofilm%20penetration. type AIDA-Sentence assertion.
- Under%20simulations%20of%20biofilm%20pH%20conditions%2C%20the%20mannose%20modified%20nanoparticle%20%28PDM%2090%2F5%2F5%29%20displayed%20ideal%20charge%20reversal%20from%20a%20neutral%20%28%2B1.69%20%C2%B1%201.83%20mV%29%20to%20a%20cationic%20surface%20potential%20%28%2B17.18%20%C2%B1%202.16%20mV%29%20to%20improve%20bacteria%20binding%20and%20biofilm%20penetration. obtainsSupportFrom acs.biomac.1c01274 assertion.
- Under%20simulations%20of%20biofilm%20pH%20conditions%2C%20the%20mannose%20modified%20nanoparticle%20%28PDM%2090%2F5%2F5%29%20displayed%20ideal%20charge%20reversal%20from%20a%20neutral%20%28%2B1.69%20%C2%B1%201.83%20mV%29%20to%20a%20cationic%20surface%20potential%20%28%2B17.18%20%C2%B1%202.16%20mV%29%20to%20improve%20bacteria%20binding%20and%20biofilm%20penetration. obtainsSupportFrom XIBGY1 assertion.