Trapping shape-controlled nanoparticle nucleation and growth stages via continuous-flow chemistry
Continuous flow chemistry is used to trap the nucleation and growth stages of platinum-nickel nano-octahedra with second time resolution and high throughputs to probe their properties ex-situ. The growth starts from poorly crystalline particles (nucleation) at 5 seconds, to crystalline 1.5 nm partic...
| Main Authors: | , , , , , , , , , |
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| Format: | Journal article |
| Published: |
Royal Society of Chemistry
2017
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| _version_ | 1797081879198826496 |
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| author | LaGrow, A Besong, T AlYami, N Khabiboulakh Katsiev, A Anjum, D Elkader, A Costa, P Burlakov, V Goriely, A Bakr, O |
| author_facet | LaGrow, A Besong, T AlYami, N Khabiboulakh Katsiev, A Anjum, D Elkader, A Costa, P Burlakov, V Goriely, A Bakr, O |
| author_sort | LaGrow, A |
| collection | OXFORD |
| description | Continuous flow chemistry is used to trap the nucleation and growth stages of platinum-nickel nano-octahedra with second time resolution and high throughputs to probe their properties ex-situ. The growth starts from poorly crystalline particles (nucleation) at 5 seconds, to crystalline 1.5 nm particles bounded by the {111}-facets at 7.5 seconds, followed by truncation and further growth to octahedral nanoparticles at 20 seconds. |
| first_indexed | 2024-03-07T01:20:17Z |
| format | Journal article |
| id | oxford-uuid:90138f33-6538-4791-a443-6c045fd0d884 |
| institution | University of Oxford |
| last_indexed | 2024-03-07T01:20:17Z |
| publishDate | 2017 |
| publisher | Royal Society of Chemistry |
| record_format | dspace |
| spelling | oxford-uuid:90138f33-6538-4791-a443-6c045fd0d8842022-03-26T23:09:09ZTrapping shape-controlled nanoparticle nucleation and growth stages via continuous-flow chemistryJournal articlehttp://purl.org/coar/resource_type/c_dcae04bcuuid:90138f33-6538-4791-a443-6c045fd0d884Symplectic Elements at OxfordRoyal Society of Chemistry2017LaGrow, ABesong, TAlYami, NKhabiboulakh Katsiev, AAnjum, DElkader, ACosta, PBurlakov, VGoriely, ABakr, OContinuous flow chemistry is used to trap the nucleation and growth stages of platinum-nickel nano-octahedra with second time resolution and high throughputs to probe their properties ex-situ. The growth starts from poorly crystalline particles (nucleation) at 5 seconds, to crystalline 1.5 nm particles bounded by the {111}-facets at 7.5 seconds, followed by truncation and further growth to octahedral nanoparticles at 20 seconds. |
| spellingShingle | LaGrow, A Besong, T AlYami, N Khabiboulakh Katsiev, A Anjum, D Elkader, A Costa, P Burlakov, V Goriely, A Bakr, O Trapping shape-controlled nanoparticle nucleation and growth stages via continuous-flow chemistry |
| title | Trapping shape-controlled nanoparticle nucleation and growth stages via continuous-flow chemistry |
| title_full | Trapping shape-controlled nanoparticle nucleation and growth stages via continuous-flow chemistry |
| title_fullStr | Trapping shape-controlled nanoparticle nucleation and growth stages via continuous-flow chemistry |
| title_full_unstemmed | Trapping shape-controlled nanoparticle nucleation and growth stages via continuous-flow chemistry |
| title_short | Trapping shape-controlled nanoparticle nucleation and growth stages via continuous-flow chemistry |
| title_sort | trapping shape controlled nanoparticle nucleation and growth stages via continuous flow chemistry |
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