<p>Change of film thickness of PLGA50/50 and PLC70/30 in vitro (PBS, pH 7.4).</p
<p>(A) Crystal violet staining of <i>P. aeruginosa</i> PA14 biofilms shows that PLUNC (100 µg/mL) re...
<p>Microbial percent surface area of PHB (a) and P(HB-<i>co</i>-8HV) (b) films, with burial time; ()...
<p>(A) Fluorescent images of PLGA substrates with (right) or without (left) immobilized, fluorescent...
<p>In vitro weight loss of PLGA50/50 and PLC70/30, immersed in PBS buffer (pH 7.4).</p
<p>Monitoring of weight molecular mass for PLGA50/50 and PLC70/30 in vitro (PBS, pH 7.4).</p
<p>Serial AS-OCT thickness measurements of PLGA 50/50 and PLC70/30 microfilms in subconjunctival spa...
<p>In vitro water absorption of PLGA50/50 and PLC70/30, immersed in PBS buffer (pH 7.4).</p
<p><i>In vitro</i> degradation profile from polymeric films of F4, F5 and F16 in PBS (pH 7.4, 37°C, ...
This study investigates the effect of PLGA 85/15 scaffold on the cell growth and viability of a cell...
<p>(A): The mass change of QCM chips decorated by sPDA films of varying polymerization times (5 min,...
<p>Film thickness profile after 3600 seconds of contact, at both (a) 25°C and (b) 59°C.</p
<p>Adhesion and cell proliferation on tested biopolymer films evaluated by XTT test: PHB, PHB-HV, PH...
A) Morphology of the upper PLLA membrane surface obtained via modification of the standard DIPS meth...
The influence of porosity on the degradation rate of poly(L-lactic acid) (PLLA) films was investigat...
Background: Despite the recognition that Microbial play a role in environmental degradation of biopl...
<p>(A) Crystal violet staining of <i>P. aeruginosa</i> PA14 biofilms shows that PLUNC (100 µg/mL) re...
<p>Microbial percent surface area of PHB (a) and P(HB-<i>co</i>-8HV) (b) films, with burial time; ()...
<p>(A) Fluorescent images of PLGA substrates with (right) or without (left) immobilized, fluorescent...
<p>In vitro weight loss of PLGA50/50 and PLC70/30, immersed in PBS buffer (pH 7.4).</p
<p>Monitoring of weight molecular mass for PLGA50/50 and PLC70/30 in vitro (PBS, pH 7.4).</p
<p>Serial AS-OCT thickness measurements of PLGA 50/50 and PLC70/30 microfilms in subconjunctival spa...
<p>In vitro water absorption of PLGA50/50 and PLC70/30, immersed in PBS buffer (pH 7.4).</p
<p><i>In vitro</i> degradation profile from polymeric films of F4, F5 and F16 in PBS (pH 7.4, 37°C, ...
This study investigates the effect of PLGA 85/15 scaffold on the cell growth and viability of a cell...
<p>(A): The mass change of QCM chips decorated by sPDA films of varying polymerization times (5 min,...
<p>Film thickness profile after 3600 seconds of contact, at both (a) 25°C and (b) 59°C.</p
<p>Adhesion and cell proliferation on tested biopolymer films evaluated by XTT test: PHB, PHB-HV, PH...
A) Morphology of the upper PLLA membrane surface obtained via modification of the standard DIPS meth...
The influence of porosity on the degradation rate of poly(L-lactic acid) (PLLA) films was investigat...
Background: Despite the recognition that Microbial play a role in environmental degradation of biopl...
<p>(A) Crystal violet staining of <i>P. aeruginosa</i> PA14 biofilms shows that PLUNC (100 µg/mL) re...
<p>Microbial percent surface area of PHB (a) and P(HB-<i>co</i>-8HV) (b) films, with burial time; ()...
<p>(A) Fluorescent images of PLGA substrates with (right) or without (left) immobilized, fluorescent...
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