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High-throughput activity screening and sorting of single catalyst particles with a droplet microreactor using dielectrophoresis

Anne-Eva Nieuwelink1, Jeroen C. Vollenbroek2, Roald M. Tiggelaar2, Johan G. Bomer3, Albert van den Berg2, Mathieu Odijk2, Bert M. Weckhuysen1*

1 Inorganic Chemistry and Catalysis, Debye Institute for Nanomaterials Science, Utrecht University, Universiteitsweg 99, 3584 CG Utrecht, The Netherlands

2 BIOS Lab on a Chip Group, MESA+ Institute, University of Twente, Hallenweg 15, 7522 NH Enschede, The Netherlands

3 NanoLab cleanroom, MESA+ Institute, University of Twente, Hallenweg 15, 7522 NH Enschede, The Netherlands

* Corresponding authors emails: b.m.weckhuysen@uu.nl
DOI10.24435/materialscloud:em-r4 [version v1]

Publication date: Oct 25, 2021

How to cite this record

Anne-Eva Nieuwelink, Jeroen C. Vollenbroek, Roald M. Tiggelaar, Johan G. Bomer, Albert van den Berg, Mathieu Odijk, Bert M. Weckhuysen, High-throughput activity screening and sorting of single catalyst particles with a droplet microreactor using dielectrophoresis, Materials Cloud Archive 2021.166 (2021), doi: 10.24435/materialscloud:em-r4.

Description

This dataset, consisting of 29 videos, has been used for the publication 'High-Throughput Activity Screening and Sorting of Single Catalyst Particles with a Droplet Microreactor Using Dielectrophoresis': "A droplet microreactor has been developed for fluorescence activated sorting of catalyst particles using dielectrophoresis. Fluid Catalytic Cracking (FCC) particles stained with styrene derivatives are analyzed with the developed analytical platform and sorted based on catalytic activity. Highly active and low-to-moderately active catalyst particles are sorted out, using 4-fluorostyrene or 4-methoxystyrene as a probe respectively. The FCC particles are encapsulated in liquid droplets, where the fluorescent FCC particles activate the dielectrophoretic sorter, and are sorted within 200 ms."

Materials Cloud sections using this data

No Explore or Discover sections associated with this archive record.

Files

File name Size Description
Supplementary Video 1.mp4
MD5md5:7cb68171c388e4cb5a8db6b8c9671ad0
16.1 MiB Supplementary video 1, showing DEP sorting of FCC catalyst particles.
Supplementary Video 2.avi
MD5md5:e68583cd4357fb70bef7742c9b07c959
3.0 MiB Supplementary video 2, showing the DEP sorting of droplets
Supplementary Video 3.avi
MD5md5:ee48856bcbb89c5e2f25fa330238e101
5.8 MiB Supplementary video 3, showing DEP sorting of FCC catalyst with 4-methoxystyrene
Supplementary Video 4.avi
MD5md5:307ddc7cba3f694753a7398b7b5eb0e4
385.7 KiB Supplementary video 4, showing DEP sorting of FCC catalyst with 4-methoxystyrene
Supplementary Video 5.avi
MD5md5:d9c0db5df37ae0c6bb5c7a69da423cba
5.2 MiB Supplementary video 5, showing DEP sorting of FCC catalyst with 4-methoxystyrene
Supplementary Video 6.avi
MD5md5:90fe9a04ff75d835d189c2fe58ee8254
9.4 MiB Supplementary video 6, showing DEP sorting of FCC catalyst with 4-methoxystyrene
Supplementary Video 7.avi
MD5md5:f66b383d4815998db2467fe521f9db2d
6.4 MiB Supplementary video 7, showing DEP sorting of FCC catalyst with 4-methoxystyrene
Supplementary Video 8.avi
MD5md5:d5c0a5d8c3a738cf4c1e1ffc09b3ec30
4.4 MiB Supplementary video 8, showing DEP sorting of FCC catalyst with 4-methoxystyrene
Supplementary Video 9.avi
MD5md5:155ce33d47503010a5471bae56f1ec6a
11.8 MiB Supplementary video 9, showing DEP sorting of FCC catalyst with 4-methoxystyrene
Supplementary Video 10.avi
MD5md5:965828b510945cf30a22e848bbd2987e
8.8 MiB Supplementary video 10, showing DEP sorting of FCC catalyst with 4-methoxystyrene
Supplementary Video 11.avi
MD5md5:2e2505155f3143dfae88a5f4ce6c4bd9
7.2 MiB Supplementary video 11, showing DEP sorting of FCC catalyst with 4-methoxystyrene
Supplementary Video 12.avi
MD5md5:936d002eb9bd700466e32b65f78e12a0
5.1 MiB Supplementary video 12, showing DEP sorting of FCC catalyst with 4-methoxystyrene
Supplementary Video 13.avi
MD5md5:419379745b3b1d069900fa7018821f40
14.2 MiB Supplementary video 13, showing DEP sorting of FCC catalyst with 4-methoxystyrene
Supplementary Video 14.avi
MD5md5:fa971d4338f1b1158fb46c2f8bd7bb9a
7.7 MiB Supplementary video 14, showing DEP sorting of FCC catalyst with 4-methoxystyrene
Supplementary Video 15.avi
MD5md5:e22e728d35c613a43153555a9d4f7c43
10.1 MiB Supplementary video 15, showing DEP sorting of FCC catalyst with 4-methoxystyrene
Supplementary Video 16.avi
MD5md5:fd54e15f6e779a01dc047b5ab4a940f0
11.5 MiB Supplementary video 16, showing DEP sorting of FCC catalyst with 4-methoxystyrene
Supplementary Video 17.avi
MD5md5:85b31f99af8946825442d649b6aaa337
16.5 MiB Supplementary video 17, showing DEP sorting of FCC catalyst with 4-methoxystyrene
Supplementary Video 18.avi
MD5md5:8b433b1b24e7545d809832536ef91acb
6.1 MiB Supplementary video 18, showing DEP sorting of FCC catalyst with 4-methoxystyrene
Supplementary Video 19.avi
MD5md5:92d00350ff17be825bd8f359afbd1a92
9.8 MiB Supplementary video 19, showing DEP sorting of FCC catalyst with 4-fluorostyrene
Supplementary Video 20.avi
MD5md5:81d94d3f9f689fdbe1d2d6652a6b4948
1.5 MiB Supplementary video 20, showing DEP sorting of FCC catalyst with 4-fluorostyrene
Supplementary Video 21.avi
MD5md5:68840657ebb0abb7282ad4df90d6ee9d
1.1 MiB Supplementary video 21, showing DEP sorting of FCC catalyst with 4-fluorostyrene
Supplementary Video 22.avi
MD5md5:b56d5f3d1641dd2c98b531df2a1731f9
773.4 KiB Supplementary video 22, showing DEP sorting of FCC catalyst with 4-fluorostyrene
Supplementary Video 23.avi
MD5md5:486919707e79cb391dc4fa29ea550af1
1.1 MiB Supplementary video 23, showing DEP sorting of FCC catalyst with 4-fluorostyrene
Supplementary Video 24.avi
MD5md5:d149d2a79fa8f1ef0ef19e901d0d88e7
5.3 MiB Supplementary video 24, showing DEP sorting of FCC catalyst with 4-fluorostyrene
Supplementary Video 25.avi
MD5md5:0c1683fd91f674a3183e101fa3706570
5.2 MiB Supplementary video 25, showing DEP sorting of FCC catalyst with 4-fluorostyrene
Supplementary Video 26.avi
MD5md5:f992a7710a08285ee62279873eae93d1
1.1 MiB Supplementary video 26, showing DEP sorting of FCC catalyst with 4-fluorostyrene
Supplementary Video 27.avi
MD5md5:0e835535dd924e1f26d8b03b882772d5
12.4 MiB Supplementary video 27, showing DEP sorting of FCC catalyst with 4-fluorostyrene
Supplementary Video 28.avi
MD5md5:ebe07f6a8da31252589a9960126ff59b
3.2 MiB Supplementary video 28, showing DEP sorting of FCC catalyst with 4-fluorostyrene
Supplementary Video 29.avi
MD5md5:22f132260a9331efe9da471821ae26d4
13.1 MiB Supplementary video 29, showing DEP sorting of FCC catalyst with 4-fluorostyrene

License

Files and data are licensed under the terms of the following license: Creative Commons Attribution 4.0 International.
Metadata, except for email addresses, are licensed under the Creative Commons Attribution Share-Alike 4.0 International license.

External references

Journal reference (Paper in which the data is discussed)
A.-E. Nieuwelink, J.C. Vollenbroek, R.M. Tiggelaar, J.G. Bomer, A. van den Berg, M. Odijk, B.M. Weckhuysen, Nature Catalysis, VOLUME, PAGES (2021)

Keywords

Experimental Dielectrophoretic Sorting Fluid Catalytic Cracking Catalyst

Version history:

2021.166 (version v1) [This version] Oct 25, 2021 DOI10.24435/materialscloud:em-r4