[HTML][HTML] A review on diatom biosilicification and their adaptive ability to uptake other metals into their frustules for potential application in bone repair
PJ Walsh - Journal of Materials Chemistry B, 2021 - pubs.rsc.org
Diatoms are unicellular eukaryotic algae that have a distinctive siliceous cell wall (frustule)
with unique architectures. The nanotopography of the frustule is perfectly replicated between …
with unique architectures. The nanotopography of the frustule is perfectly replicated between …
A review on diatom biosilicification and their adaptive ability to uptake other metals into their frustules for potential application in bone repair.
A Reid, F Buchanan, M Julius… - Journal of Materials …, 2021 - europepmc.org
Diatoms are unicellular eukaryotic algae that have a distinctive siliceous cell wall (frustule)
with unique architectures. The nanotopography of the frustule is perfectly replicated between …
with unique architectures. The nanotopography of the frustule is perfectly replicated between …
[引用][C] A review on diatom biosilicification and their adaptive ability to uptake other metals into their frustules for potential application in bone repair
A Reid, F Buchanan, M Julius… - Journal of Materials …, 2021 - pure.qub.ac.uk
A review on diatom biosilicification and their adaptive ability to uptake other metals into their
frustules for potential application in bone repair — Queen's University Belfast Skip to main …
frustules for potential application in bone repair — Queen's University Belfast Skip to main …
[PDF][PDF] A review on diatom biosilicification and their adaptive ability to uptake other metals into their frustules for potential application in bone repair
A Reid, F Buchanan, M Julius, PJ Walsh - academia.edu
Diatoms are unicellular eukaryotic algae that have a distinctive siliceous cell wall (frustule)
with unique architectures. The nanotopography of the frustule is perfectly replicated between …
with unique architectures. The nanotopography of the frustule is perfectly replicated between …
A review on diatom biosilicification and their adaptive ability to uptake other metals into their frustules for potential application in bone repair
A Reid, F Buchanan, M Julius… - Journal of materials …, 2021 - pubmed.ncbi.nlm.nih.gov
Diatoms are unicellular eukaryotic algae that have a distinctive siliceous cell wall (frustule)
with unique architectures. The nanotopography of the frustule is perfectly replicated between …
with unique architectures. The nanotopography of the frustule is perfectly replicated between …
[PDF][PDF] A review on diatom biosilicification and their adaptive ability to uptake other metals into their frustules for potential application in bone repair
A Reid, F Buchanan, M Julius, PJ Walsh - pdfs.semanticscholar.org
Diatoms are unicellular eukaryotic algae that have a distinctive siliceous cell wall (frustule)
with unique architectures. The nanotopography of the frustule is perfectly replicated between …
with unique architectures. The nanotopography of the frustule is perfectly replicated between …
[PDF][PDF] A review on diatom biosilicification and their adaptive ability to uptake other metals into their frustules for potential application in bone repair
A Reid, F Buchanan, M Julius, PJ Walsh - academia.edu
Diatoms are unicellular eukaryotic algae that have a distinctive siliceous cell wall (frustule)
with unique architectures. The nanotopography of the frustule is perfectly replicated between …
with unique architectures. The nanotopography of the frustule is perfectly replicated between …
[PDF][PDF] A review on diatom biosilicification and their adaptive ability to uptake other metals into their frustules for potential application in bone repair
A Reid, F Buchanan, M Julius, PJ Walsh - pdfs.semanticscholar.org
Diatoms are unicellular eukaryotic algae that have a distinctive siliceous cell wall (frustule)
with unique architectures. The nanotopography of the frustule is perfectly replicated between …
with unique architectures. The nanotopography of the frustule is perfectly replicated between …