about
Revisiting the Fundamentals in the Design and Control of Nanoparticulate Colloids in the Frame of Soft ChemistryWhen 1+1>2: Nanostructured composites for hard tissue engineering applicationsWater in the formation of biogenic minerals: peeling away the hydration layers.How amelogenin orchestrates the organization of hierarchical elongated microstructures of apatiteStable prenucleation mineral clusters are liquid-like ionic polymers.Two competitive nucleation mechanisms of calcium carbonate biomineralization in response to surface functionality in low calcium ion concentration solution.Synergistic intrafibrillar/extrafibrillar mineralization of collagen scaffolds based on a biomimetic strategy to promote the regeneration of bone defects.Self-Setting Calcium Phosphate Cements with Tunable Antibiotic Release Rates for Advanced Antimicrobial ApplicationsTracking Amorphous Precursor Formation and Transformation during Induction Stages of Nucleation.The role of amorphous precursors in the crystallization of La and Nd carbonates.In Vitro Characterization of the Two-Stage Non-Classical Reassembly Pathway of S-Layers.First stages of siderite crystallisation during CO2 corrosion of steel evaluated using in situ synchrotron small- and wide-angle X-ray scattering.Nanoparticles considered as mixtures for toxicological research.The role of confined collagen geometry in decreasing nucleation energy barriers to intrafibrillar mineralization.Amorphous dysprosium carbonate: characterization, stability, and crystallization pathwaysBio-inspired motifs via tandem assembly of polypeptides for mineralization of stable CaCO3 structures
P2860
Q28659772-C38618F5-4D98-43A4-81E9-992DB988DF2CQ30368848-42CA516B-FF5D-42C8-880E-F20E696E0F82Q30433847-FEF03D6D-FDAE-479D-B838-42283E0F9A6EQ33763703-87CACF67-47C0-4FED-8FFB-1F412768296DQ35639270-E049773C-1D45-47B8-B146-72D8E54984EFQ36345127-BB3FB926-17B3-4F58-965C-716A8ED6F302Q36908039-42256B4E-D874-4383-BE0C-581B82A39809Q37211690-0AEC89BD-B1E3-4D05-A5E0-FE754FC953B0Q37697090-0F0BFE40-15E7-4CDD-95F3-D15FEBF66F58Q40778227-2AAB1CE7-D0C2-4EF5-9017-224ECD99C892Q42317351-5B607CEF-50A5-48D7-BCD0-89E1B0DFADAFQ46739697-ACA86A43-BA70-40C1-B356-A1CB8E928BD1Q47191441-3FAF254B-2516-4AD6-BF74-C06A7DFA8E9BQ51735745-6395EBBD-B233-444C-A438-A8930A3DA03BQ56041416-57A3BA72-2EA9-4DBE-B9AB-0473D8E32360Q57218347-A4F76CFC-7356-42CC-A4FA-3486797C91B8
P2860
description
2008 nî lūn-bûn
@nan
2008年の論文
@ja
2008年学术文章
@wuu
2008年学术文章
@zh-cn
2008年学术文章
@zh-hans
2008年学术文章
@zh-my
2008年学术文章
@zh-sg
2008年學術文章
@yue
2008年學術文章
@zh
2008年學術文章
@zh-hant
name
Materials science. Now you see them.
@en
Materials science. Now you see them.
@en-gb
Materials science. Now you see them.
@nl
type
label
Materials science. Now you see them.
@en
Materials science. Now you see them.
@en-gb
Materials science. Now you see them.
@nl
prefLabel
Materials science. Now you see them.
@en
Materials science. Now you see them.
@en-gb
Materials science. Now you see them.
@nl
P356
P1433
P1476
Materials science. Now you see them.
@en
P2093
Richard P Sear
P304
P356
10.1126/SCIENCE.1167221
P407
P577
2008-12-01T00:00:00Z