This study investigated the role of hydrophobic/hydrophilic interaction between bacterial and support surfaces in microbial adhesion, and a model that correlates microbial adhesion and relative cell-hydrophobicity defined as the ratio of cell-support surface hydrophobicity over cell-support hydrophilicity was derived. This model quantitatively describes how cell hydrophobic and hydrophilic interactions affect microbial adhesion, and offers deep insights into the thermodynamic mechanisms of microbial adhesion. The proposed model was verified by literature data. It appears that a high cell-hydrophobicity strongly facilitates microbial adhesion on both hydrophobic and hydrophilic support surfaces.
%0 Journal Article
%1 liu2004influence
%A Liu, Yu
%A Yang, Shu-Fang
%A Li, Yong
%A Xu, Hui
%A Qin, Lei
%A Tay, Joo-Hwa
%D 2004
%J Journal of Biotechnology
%K 76b45-capillarity 82b24-equilibrium-interface-problems-diffusion-limited-aggregation 92c10-biomechanics 92c70-microbiology biofilm
%N 3
%P 251-256
%R 10.1016/j.jbiotec.2004.02.012
%T The influence of cell and substratum surface hydrophobicities on microbial attachment
%U https://www.sciencedirect.com/science/article/pii/S0168165604001117
%V 110
%X This study investigated the role of hydrophobic/hydrophilic interaction between bacterial and support surfaces in microbial adhesion, and a model that correlates microbial adhesion and relative cell-hydrophobicity defined as the ratio of cell-support surface hydrophobicity over cell-support hydrophilicity was derived. This model quantitatively describes how cell hydrophobic and hydrophilic interactions affect microbial adhesion, and offers deep insights into the thermodynamic mechanisms of microbial adhesion. The proposed model was verified by literature data. It appears that a high cell-hydrophobicity strongly facilitates microbial adhesion on both hydrophobic and hydrophilic support surfaces.
@article{liu2004influence,
abstract = {This study investigated the role of hydrophobic/hydrophilic interaction between bacterial and support surfaces in microbial adhesion, and a model that correlates microbial adhesion and relative cell-hydrophobicity defined as the ratio of cell-support surface hydrophobicity over cell-support hydrophilicity was derived. This model quantitatively describes how cell hydrophobic and hydrophilic interactions affect microbial adhesion, and offers deep insights into the thermodynamic mechanisms of microbial adhesion. The proposed model was verified by literature data. It appears that a high cell-hydrophobicity strongly facilitates microbial adhesion on both hydrophobic and hydrophilic support surfaces.},
added-at = {2023-11-15T00:15:50.000+0100},
author = {Liu, Yu and Yang, Shu-Fang and Li, Yong and Xu, Hui and Qin, Lei and Tay, Joo-Hwa},
biburl = {https://www.bibsonomy.org/bibtex/26b2b6ef4878dff2520ac42f6de212cec/gdmcbain},
doi = {10.1016/j.jbiotec.2004.02.012},
interhash = {c09736fe8edcaeb7dc08bde9091b3f5f},
intrahash = {6b2b6ef4878dff2520ac42f6de212cec},
issn = {0168-1656},
journal = {Journal of Biotechnology},
keywords = {76b45-capillarity 82b24-equilibrium-interface-problems-diffusion-limited-aggregation 92c10-biomechanics 92c70-microbiology biofilm},
number = 3,
pages = {251-256},
timestamp = {2023-11-15T00:17:58.000+0100},
title = {The influence of cell and substratum surface hydrophobicities on microbial attachment},
url = {https://www.sciencedirect.com/science/article/pii/S0168165604001117},
volume = 110,
year = 2004
}