File:Direct-observation-of-mineral–organic-composite-formation-reveals-occlusion-mechanism-ncomms10187-s4.ogv

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English: Supplementary Movie 3 Adsorption dynamics of sulfonated SBA: PHPMA30-PDPA47 micelles onto calcite surface (1.5 × 1.5 μm) shown in Supplementary Fig. 1a,b. This movie shows adsorption dynamics of the sulfonated micelles for 105 minutes and 19 seconds in equilibrium condition. Because steps did not move in this condition, the adsorption site of the micelles could be identified. As with the carboxylated PSPMA30-PDPA47 micelles, these micelles adsorbed directly to step edges rather than terraces. However, in contrast to the carboxylated micelles, adsorption to acute was strongly preferred over adsorption to obtuse steps.
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Source Video file from Rae Cho K, Kim Y, Yang P, Cai W, Pan H, Kulak A, Lau J, Kulshreshtha P, Armes S, Meldrum F, De Yoreo J (2016). "Direct observation of mineral–organic composite formation reveals occlusion mechanism". Nature Communications. DOI:10.1038/ncomms10187. PMID 26732046. PMC: 4729825.
Author Rae Cho K, Kim Y, Yang P, Cai W, Pan H, Kulak A, Lau J, Kulshreshtha P, Armes S, Meldrum F, De Yoreo J
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current19:30, 29 October 201634 s, 900 × 900 (13.51 MB)Open Access Media Importer Bot (talk | contribs)Automatically uploaded media file from Open Access source. Please report problems or suggestions here.

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Format Bitrate Download Status Encode time
VP9 720P 867 kbps Completed 11:47, 24 August 2018 13 s
Streaming 720p (VP9) 867 kbps Completed 03:20, 14 March 2024 1.0 s
VP9 480P 508 kbps Completed 11:47, 24 August 2018 11 s
Streaming 480p (VP9) 508 kbps Completed 15:10, 5 February 2024 1.0 s
VP9 360P 306 kbps Completed 11:47, 24 August 2018 11 s
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VP9 240P 144 kbps Completed 11:47, 24 August 2018 8.0 s
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WebM 360P 516 kbps Completed 19:30, 29 October 2016 7.0 s
Streaming 144p (MJPEG) 162 kbps Completed 09:56, 3 November 2023 1.0 s

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