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Bacterial adhesion to glass and metal-oxide surfaces
Baikun Li,
Bruce E. Logan
Civil and Environmental Engineering
Materials Research Institute (MRI)
Institute of Energy and the Environment (IEE)
Research output
:
Contribution to journal
›
Article
›
peer-review
512
Scopus citations
Overview
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Medicine & Life Sciences
Air
8%
Bacillus subtilis
11%
Bacteria
49%
Bacterial Adhesion
100%
Colon
8%
Escherichia coli
7%
Glass
71%
Gram-Negative Bacteria
10%
Gram-Positive Bacteria
11%
Hydrophobic and Hydrophilic Interactions
34%
Lipopolysaccharides
9%
Metals
63%
Osmolar Concentration
21%
Oxides
88%
Pseudomonas exopolysaccharide
20%
Sand
14%
Static Electricity
12%
Tin
14%
Water
7%
Engineering & Materials Science
Adhesion
67%
Air
2%
Bacilli
7%
Bacteria
52%
Chemical vapor deposition
6%
Contact angle
11%
Doping (additives)
5%
Electrostatics
5%
Escherichia coli
6%
Free energy
6%
Glass
58%
Hydrophobicity
20%
Interfacial energy
12%
Ionic strength
16%
Metals
47%
Microscopes
5%
Oxide films
6%
Oxides
63%
Sand
4%
Thin films
9%
Tin
6%
Water
2%
Physics & Astronomy
adhesion
62%
air
3%
Bacillus
7%
bacteria
50%
chutes
5%
clearings (openings)
9%
electrostatic charge
7%
Escherichia
6%
floats
20%
free energy
4%
glass
42%
hydrophobicity
19%
metal oxides
70%
metals
5%
microscopes
4%
pseudomonas
7%
sands
5%
surface energy
9%
thin films
5%
tin
4%
vapor deposition
4%
water
2%
Chemical Compounds
Amount
2%
Chemical Vapour Deposition
5%
Electrostatic Charge
8%
Exopolysaccharide
8%
Float Glass
29%
Glass
50%
Hydrophobicity
15%
Interfacial Energy
12%
Ionic Strength
4%
Length
3%
Lipopolysaccharide
6%
Metal
5%
Metal Oxide
60%
Strain
21%
Strength
3%
Surface
23%