Energetic clues to pathways to biomineralization: precursors, clusters, and nanoparticles.
about
Role of CaCO3° Neutral Pair in Calcium Carbonate Crystallization.Biomimetic model systems for investigating the amorphous precursor pathway and its role in biomineralizationWater in the formation of biogenic minerals: peeling away the hydration layers.Biomimetic Control of Calcite Morphology with Homopolyanions.How amelogenin orchestrates the organization of hierarchical elongated microstructures of apatiteGroup additivity-Pourbaix diagrams advocate thermodynamically stable nanoscale clusters in aqueous environments.The role and implications of bassanite as a stable precursor phase to gypsum precipitation.From bacteria to mollusks: the principles underlying the biomineralization of iron oxide materials.Self-assembled bifunctional surface mimics an enzymatic and templating protein for the synthesis of a metal oxide semiconductorMicroscopic mechanism of nanocrystal formation from solution by cluster aggregation and coalescenceCalcium orthophosphates: crystallization and dissolution.Nucleation of metastable aragonite CaCO3 in seawaterThe possibility of the formation of protocells and their structural components on the basis of the apatite matrix and cocrystallizing mineralsObserving in space and time the ephemeral nucleation of liquid-to-crystal phase transitions.Insights into the synthesis of layered double hydroxide (LDH) nanoparticles: Part 2. Formation mechanisms of LDH.Insights into the synthesis of layered double hydroxide (LDH) nanoparticles: Part 1. Optimization and controlled synthesis of chloride-intercalated LDHMolecular modulation of calcium oxalate crystallization.Spatially and temporally controlled biomineralization is facilitated by interaction between self-assembled dentin matrix protein 1 and calcium phosphate nuclei in solution.Noble metal nanoclusters and nanoparticles precede mineral formation in magmatic sulphide melts.Elongated magnetite nanoparticle formation from a solid ferrous precursor in a magnetotactic bacterium.Evaluating structure selection in the hydrothermal growth of FeS2 pyrite and marcasite.Guest-host interactions of a rigid organic molecule in porous silica frameworks.The thermodynamic scale of inorganic crystalline metastability.Atomistic theory and simulation of the morphology and structure of ionic nanoparticles.Experimental modelling of single-particle dynamic processes in crystallization by controlled colloidal assembly.Pre-nucleation clusters as solute precursors in crystallisation."On the Dot"-The Timing of Self-Assembled Growth to the Quantum Scale.Controlled hydroxyapatite biomineralization in an ~810 million-year-old unicellular eukaryote.The role played by modified bioinspired surfaces in interfacial properties of biomaterials.Nano regulation of cisplatin chemotherapeutic behaviors by biomineralization controls.Mesostructure from hydration gradients in demosponge biosilica.Mineralization and non-ideality: on nature's foundry.Identification of Specific Hydroxyapatite {001} Binding Heptapeptide by Phage Display and Its Nucleation Effect.Fetuin-A is a mineral carrier protein: small angle neutron scattering provides new insight on Fetuin-A controlled calcification inhibition.Amorphous calcium carbonate particles form coral skeletons.Polymorph specific RMSD local order parameters for molecular crystals and nuclei: α-, β-, and γ-glycine.Peptides enhance magnesium signature in calcite: insights into origins of vital effects.Overcoming multiple drug resistance by spatial-temporal synchronization of epirubicin and pooled siRNAs.Competing nucleation pathways in a mixture of oppositely charged colloids: out-of-equilibrium nucleation revisited.Stable prenucleation calcium carbonate clusters.
P2860
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P2860
Energetic clues to pathways to biomineralization: precursors, clusters, and nanoparticles.
description
2004 nî lūn-bûn
@nan
2004年の論文
@ja
2004年論文
@yue
2004年論文
@zh-hant
2004年論文
@zh-hk
2004年論文
@zh-mo
2004年論文
@zh-tw
2004年论文
@wuu
2004年论文
@zh
2004年论文
@zh-cn
name
Energetic clues to pathways to ...... , clusters, and nanoparticles.
@ast
Energetic clues to pathways to ...... , clusters, and nanoparticles.
@en
type
label
Energetic clues to pathways to ...... , clusters, and nanoparticles.
@ast
Energetic clues to pathways to ...... , clusters, and nanoparticles.
@en
prefLabel
Energetic clues to pathways to ...... , clusters, and nanoparticles.
@ast
Energetic clues to pathways to ...... , clusters, and nanoparticles.
@en
P2860
P356
P1476
Energetic clues to pathways to ...... , clusters, and nanoparticles.
@en
P2860
P304
12096-12101
P356
10.1073/PNAS.0404778101
P407
P577
2004-08-05T00:00:00Z