Systematic Screening and Deep Analysis of CoPt Binding Peptides Leads to Enhanced CoPt Nanoparticles Using Designed Peptides

Abstract: Using protein and peptide additives to direct the crystallization of inorganic materials is a very attractive and environmentally friendly strategy to access complex and sometimes inaccessible mineral phases. CoPt is a very desirable highmagnetoanisotropic material in its L1 0 phase, but this is acquired by annealing at high temperatures which is incompatible with delicate nanomaterial assembly. Previous studies identified one peptide with high affinity to CoPt and four peptides with high affinity to FePt L1 0… Show more

“…This study realises and explains the power of the bioinspired-additive green chemistry approach to MNP synthesis. Previous work has demonstrated how metal-alloy nanoparticle phase, 71 silica mesoporosity, 72 and morphology of many nanoparticles such as magnetite, 43 calcite, 73 and platinum 74 can be control using…”

Ethylenediamine series as additives to control the morphology of magnetite nanoparticles

“…This study realises and explains the power of the bioinspired-additive green chemistry approach to MNP synthesis. Previous work has demonstrated how metal-alloy nanoparticle phase, 71 silica mesoporosity, 72 and morphology of many nanoparticles such as magnetite, 43 calcite, 73 and platinum 74 can be control using…”

Ethylenediamine series as additives to control the morphology of magnetite nanoparticles