Microfluidics (English Wikipedia)

Analysis of information sources in references of the Wikipedia article "Microfluidics" in English language version.

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acs.org

pubs.acs.org

Nelson, Gilbert L.; Lackey, Hope E.; Bello, Job M.; Felmy, Heather M.; Bryan, Hannah B.; Lamadie, Fabrice; Bryan, Samuel A.; Lines, Amanda M. (2021-01-26). "Enabling Microscale Processing: Combined Raman and Absorbance Spectroscopy for Microfluidic On-Line Monitoring". Analytical Chemistry. 93 (3): 1643–1651. doi:10.1021/acs.analchem.0c04225. ISSN 0003-2700. OSTI 1783814. PMID 33337856. S2CID 229323758.
Nelson, Gilbert L.; Lines, Amanda M.; Bello, Job M.; Bryan, Samuel A. (2019-09-27). "Online Monitoring of Solutions Within Microfluidic Chips: Simultaneous Raman and UV–Vis Absorption Spectroscopies". ACS Sensors. 4 (9): 2288–2295. doi:10.1021/acssensors.9b00736. ISSN 2379-3694. PMID 31434479. S2CID 201275176.
Rodríguez-Ruiz, Isaac; Lamadie, Fabrice; Charton, Sophie (2018-02-20). "Uranium(VI) On-Chip Microliter Concentration Measurements in a Highly Extended UV–Visible Absorbance Linearity Range". Analytical Chemistry. 90 (4): 2456–2460. doi:10.1021/acs.analchem.7b05162. ISSN 0003-2700. PMID 29327582.
Fan, Zhonghui H.; Harrison, D. Jed. (1994-01-01). "Micromachining of capillary electrophoresis injectors and separators on glass chips and evaluation of flow at capillary intersections". Analytical Chemistry. 66 (1): 177–184. doi:10.1021/ac00073a029. ISSN 0003-2700.

aip.org

apl.aip.org

Chokkalingam V, Herminghaus S, Seemann R (2008). "Self-synchronizing Pairwise Production of Monodisperse Droplets by Microfluidic Step Emulsification". Applied Physics Letters. 93 (25): 254101. Bibcode:2008ApPhL..93y4101C. doi:10.1063/1.3050461. Archived from the original on 2013-01-13.

aps.org

Tretkoff E (May 2005). "Building a Better Fuel Cell Using Microfluidics". APS News. 14 (5): 3.

archive.org

Tabeling P (2005). Introduction to Microfluidics. Oxford University Press. ISBN 978-0-19-856864-3.

archive.today

Chokkalingam V, Herminghaus S, Seemann R (2008). "Self-synchronizing Pairwise Production of Monodisperse Droplets by Microfluidic Step Emulsification". Applied Physics Letters. 93 (25): 254101. Bibcode:2008ApPhL..93y4101C. doi:10.1063/1.3050461. Archived from the original on 2013-01-13.

arxiv.org

Liu M, Suo S, Wu J, Gan Y, Ah Hanaor D, Chen CQ (March 2019). "Tailoring porous media for controllable capillary flow". Journal of Colloid and Interface Science. 539: 379–387. arXiv:2106.03526. Bibcode:2019JCIS..539..379L. doi:10.1016/j.jcis.2018.12.068. PMID 30594833. S2CID 58553777.
Amir A, Babaeipour F, McIntosh DB, Nelson DR, Jun S (April 2014). "Bending forces plastically deform growing bacterial cell walls". Proceedings of the National Academy of Sciences of the United States of America. 111 (16): 5778–5783. arXiv:1305.5843. Bibcode:2014PNAS..111.5778A. doi:10.1073/pnas.1317497111. PMC 4000856. PMID 24711421.
Angelani L, Di Leonardo R, Ruocco G (January 2009). "Self-starting micromotors in a bacterial bath". Physical Review Letters. 102 (4): 048104. arXiv:0812.2375. Bibcode:2009PhRvL.102d8104A. doi:10.1103/PhysRevLett.102.048104. PMID 19257480. S2CID 33943502.
Di Leonardo R, Angelani L, Dell'arciprete D, Ruocco G, Iebba V, Schippa S, et al. (May 2010). "Bacterial ratchet motors". Proceedings of the National Academy of Sciences of the United States of America. 107 (21): 9541–9545. arXiv:0910.2899. Bibcode:2010PNAS..107.9541D. doi:10.1073/pnas.0910426107. PMC 2906854. PMID 20457936.

books.google.com

Galindo-Rosales FJ (2017-05-26). Complex Fluid-Flows in Microfluidics. Springer. ISBN 9783319595931.

caltech.edu

resolver.caltech.edu

Wu, S. (2000). "MEMS flow sensors for nano-fluidic applications". Proceedings IEEE Thirteenth Annual International Conference on Micro Electro Mechanical Systems (Cat. No.00CH36308). IEEE. pp. 745–750. doi:10.1109/MEMSYS.2000.838611. ISBN 0-7803-5273-4. Retrieved 24 January 2024. {{cite book}}: |website= ignored (help)

authors.library.caltech.edu

Choi JW, Rosset S, Niklaus M, Adleman JR, Shea H, Psaltis D (March 2010). "3-dimensional electrode patterning within a microfluidic channel using metal ion implantation". Lab on a Chip. 10 (6): 783–788. doi:10.1039/B917719A. PMID 20221568.

cambridge.org

Bowden SA, Wilson R, Taylor C, Cooper JM, Parnell J (January 2007). "The extraction of intracrystalline biomarkers and other organic compounds from sulphate minerals using a microfluidic format – a feasibility study for remote fossil-life detection using a microfluidic H-cell". International Journal of Astrobiology. 6 (1): 27–36. Bibcode:2007IJAsB...6...27B. doi:10.1017/S147355040600351X. ISSN 1475-3006. S2CID 123048038.

cytonix.com

"fluid transistor". Archived from the original on July 8, 2011.

degruyter.com

Kirsanov, D.; Babain, V.; Agafonova-Moroz, M.; Lumpov, A.; Legin, A. (2012-03-01). "Combination of optical spectroscopy and chemometric techniques—a possible way for on-line monitoring of spent nuclear fuel (SNF) reprocessing". Radiochimica Acta. 100 (3): 185–188. doi:10.1524/ract.2012.1901. S2CID 101475605.
Bryan, S. A.; Levitskaia, Tatiana G.; Johnsen, A. M.; Orton, C. R.; Peterson, J. M. (September 2011). "Spectroscopic monitoring of spent nuclear fuel reprocessing streams: an evaluation of spent fuel solutions via Raman, visible, and near-infrared spectroscopy". Radiochimica Acta. 99 (9): 563–572. doi:10.1524/ract.2011.1865. ISSN 0033-8230. S2CID 95632074.

doi.org

Whitesides, George M. (July 2006). "The origins and the future of microfluidics". Nature. 442 (7101): 368–373. Bibcode:2006Natur.442..368W. doi:10.1038/nature05058. ISSN 0028-0836. PMID 16871203. S2CID 205210989.
Terry SC, Jerman JH, Angell JB (December 1979). "A gas chromatographic air analyzer fabricated on a silicon wafer". IEEE Transactions on Electron Devices. 26 (12): 1880–6. Bibcode:1979ITED...26.1880T. doi:10.1109/T-ED.1979.19791. S2CID 21971431.
Chokkalingam V, Weidenhof B, Krämer M, Maier WF, Herminghaus S, Seemann R (July 2010). "Optimized droplet-based microfluidics scheme for sol-gel reactions". Lab on a Chip. 10 (13): 1700–1705. doi:10.1039/b926976b. PMID 20405061.
Shestopalov I, Tice JD, Ismagilov RF (August 2004). "Multi-step synthesis of nanoparticles performed on millisecond time scale in a microfluidic droplet-based system". Lab on a Chip. 4 (4): 316–321. doi:10.1039/b403378g. PMID 15269797.
Thomas DJ, McCall C, Tehrani Z, Claypole TC (June 2017). "Three-Dimensional–Printed Laboratory-on-a-Chip With Microelectronics and Silicon Integration". Point of Care. 16 (2): 97–101. doi:10.1097/POC.0000000000000132. S2CID 58306257.
Melin J, van der Wijngaart W, Stemme G (June 2005). "Behaviour and design considerations for continuous flow closed-open-closed liquid microchannels". Lab on a Chip. 5 (6): 682–686. doi:10.1039/b501781e. PMID 15915262.
Frisk T, Rönnholm D, van der Wijngaart W, Stemme G (December 2006). "A micromachined interface for airborne sample-to-liquid transfer and its application in a biosensor system". Lab on a Chip. 6 (12): 1504–1509. doi:10.1039/B612526N. PMID 17203153.
Frisk T, Sandström N, Eng L, van der Wijngaart W, Månsson P, Stemme G (October 2008). "An integrated QCM-based narcotics sensing microsystem". Lab on a Chip. 8 (10): 1648–1657. doi:10.1039/b800487k. PMID 18813386.
Jacksén J, Frisk T, Redeby T, Parmar V, van der Wijngaart W, Stemme G, Emmer A (July 2007). "Off-line integration of CE and MALDI-MS using a closed-open-closed microchannel system". Electrophoresis. 28 (14): 2458–2465. doi:10.1002/elps.200600735. PMID 17577881. S2CID 16337938.
Berthier J, Brakke KA, Berthier E (2016-08-01). Open Microfluidics. doi:10.1002/9781118720936. ISBN 9781118720936.
Pfohl T, Mugele F, Seemann R, Herminghaus S (December 2003). "Trends in microfluidics with complex fluids" (PDF). ChemPhysChem. 4 (12): 1291–1298. doi:10.1002/cphc.200300847. PMID 14714376.
Kaigala GV, Lovchik RD, Delamarche E (November 2012). "Microfluidics in the "open space" for performing localized chemistry on biological interfaces". Angewandte Chemie. 51 (45): 11224–11240. doi:10.1002/anie.201201798. PMID 23111955.
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Li C, Boban M, Tuteja A (April 2017). "Open-channel, water-in-oil emulsification in paper-based microfluidic devices". Lab on a Chip. 17 (8): 1436–1441. doi:10.1039/c7lc00114b. PMID 28322402. S2CID 5046916.
Casavant BP, Berthier E, Theberge AB, Berthier J, Montanez-Sauri SI, Bischel LL, et al. (June 2013). "Suspended microfluidics". Proceedings of the National Academy of Sciences of the United States of America. 110 (25): 10111–10116. Bibcode:2013PNAS..11010111C. doi:10.1073/pnas.1302566110. PMC 3690848. PMID 23729815.
Guckenberger DJ, de Groot TE, Wan AM, Beebe DJ, Young EW (June 2015). "Micromilling: a method for ultra-rapid prototyping of plastic microfluidic devices". Lab on a Chip. 15 (11): 2364–2378. doi:10.1039/c5lc00234f. PMC 4439323. PMID 25906246.
Truckenmüller R, Rummler Z, Schaller T, Schomburg WK (2002-06-13). "Low-cost thermoforming of micro fluidic analysis chips". Journal of Micromechanics and Microengineering. 12 (4): 375–379. Bibcode:2002JMiMi..12..375T. doi:10.1088/0960-1317/12/4/304. ISSN 0960-1317. S2CID 250860338.
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Konda A, Morin SA (June 2017). "Flow-directed synthesis of spatially variant arrays of branched zinc oxide mesostructures". Nanoscale. 9 (24): 8393–8400. doi:10.1039/C7NR02655B. PMID 28604901.
Wu, S. (2000). "MEMS flow sensors for nano-fluidic applications". Proceedings IEEE Thirteenth Annual International Conference on Micro Electro Mechanical Systems (Cat. No.00CH36308). IEEE. pp. 745–750. doi:10.1109/MEMSYS.2000.838611. ISBN 0-7803-5273-4. Retrieved 24 January 2024. {{cite book}}: |website= ignored (help)
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Chokkalingam V, Tel J, Wimmers F, Liu X, Semenov S, Thiele J, et al. (December 2013). "Probing cellular heterogeneity in cytokine-secreting immune cells using droplet-based microfluidics". Lab on a Chip. 13 (24): 4740–4744. doi:10.1039/C3LC50945A. PMID 24185478. S2CID 46363431.
Chokkalingam V, Herminghaus S, Seemann R (2008). "Self-synchronizing Pairwise Production of Monodisperse Droplets by Microfluidic Step Emulsification". Applied Physics Letters. 93 (25): 254101. Bibcode:2008ApPhL..93y4101C. doi:10.1063/1.3050461. Archived from the original on 2013-01-13.
Teh SY, Lin R, Hung LH, Lee AP (February 2008). "Droplet microfluidics". Lab on a Chip. 8 (2): 198–220. doi:10.1039/B715524G. PMID 18231657. S2CID 18158748.
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Liu M, Suo S, Wu J, Gan Y, Ah Hanaor D, Chen CQ (March 2019). "Tailoring porous media for controllable capillary flow". Journal of Colloid and Interface Science. 539: 379–387. arXiv:2106.03526. Bibcode:2019JCIS..539..379L. doi:10.1016/j.jcis.2018.12.068. PMID 30594833. S2CID 58553777.
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Nelson, Gilbert L.; Lackey, Hope E.; Bello, Job M.; Felmy, Heather M.; Bryan, Hannah B.; Lamadie, Fabrice; Bryan, Samuel A.; Lines, Amanda M. (2021-01-26). "Enabling Microscale Processing: Combined Raman and Absorbance Spectroscopy for Microfluidic On-Line Monitoring". Analytical Chemistry. 93 (3): 1643–1651. doi:10.1021/acs.analchem.0c04225. ISSN 0003-2700. OSTI 1783814. PMID 33337856. S2CID 229323758.

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Mattio, Elodie; Caleyron, Audrey; Miguirditchian, Manuel; Lines, Amanda M.; Bryan, Samuel A.; Lackey, Hope E.; Rodriguez-Ruiz, Isaac; Lamadie, Fabrice (May 2022). "Microfluidic In-Situ Spectrophotometric Approaches to Tackle Actinides Analysis in Multiple Oxidation States". Applied Spectroscopy. 76 (5): 580–589. Bibcode:2022ApSpe..76..580M. doi:10.1177/00037028211063916. ISSN 0003-7028. PMID 35108115. S2CID 246488502 – via Sage Journals.

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Hsiao, Ching-Ju; Lin, Jui-Fen; Wen, Hsin-Yi; Lin, Yu-Mei; Yang, Chih-Hui; Huang, Keng-Shiang; Shaw, Jei-Fu (2020-02-15). "Enhancement of the stability of chlorophyll using chlorophyll-encapsulated polycaprolactone microparticles based on droplet microfluidics". Food Chemistry. 306: 125300. doi:10.1016/j.foodchem.2019.125300. ISSN 0308-8146. PMID 31562927. S2CID 201219877.
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soton.ac.uk

eprints.soton.ac.uk

Theberge AB, Courtois F, Schaerli Y, Fischlechner M, Abell C, Hollfelder F, Huck WT (August 2010). "Microdroplets in microfluidics: an evolving platform for discoveries in chemistry and biology" (PDF). Angewandte Chemie. 49 (34): 5846–5868. doi:10.1002/anie.200906653. PMID 20572214. S2CID 18609389.

stanford.edu

microfluidics.stanford.edu

Santiago JG. "Water Management in PEM Fuel Cells". Stanford Microfluidics Laboratory. Archived from the original on 28 June 2008.

swan.ac.uk

cronfa.swan.ac.uk

Thomas DJ, McCall C, Tehrani Z, Claypole TC (June 2017). "Three-Dimensional–Printed Laboratory-on-a-Chip With Microelectronics and Silicon Integration". Point of Care. 16 (2): 97–101. doi:10.1097/POC.0000000000000132. S2CID 58306257.

unibas.ch

edoc.unibas.ch

Hochstetter A, Stellamanns E, Deshpande S, Uppaluri S, Engstler M, Pfohl T (April 2015). "Microfluidics-based single cell analysis reveals drug-dependent motility changes in trypanosomes" (PDF). Lab on a Chip. 15 (8): 1961–1968. doi:10.1039/C5LC00124B. PMID 25756872.

utwente.nl

ris.utwente.nl

Pfohl T, Mugele F, Seemann R, Herminghaus S (December 2003). "Trends in microfluidics with complex fluids" (PDF). ChemPhysChem. 4 (12): 1291–1298. doi:10.1002/cphc.200300847. PMID 14714376.

web.archive.org

Kirby BJ (2010). Micro- and Nanoscale Fluid Mechanics: Transport in Microfluidic Devices. Cambridge University Press. Archived from the original on 2019-04-28. Retrieved 2010-02-13.
Shestopalov I, Tice JD, Ismagilov RF (August 2004). "Multi-step synthesis of nanoparticles performed on millisecond time scale in a microfluidic droplet-based system". Lab on a Chip. 4 (4): 316–321. doi:10.1039/b403378g. PMID 15269797.
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Santiago JG. "Water Management in PEM Fuel Cells". Stanford Microfluidics Laboratory. Archived from the original on 28 June 2008.
Allen J. "Fuel Cell Initiative at MnIT Microfluidics Laboratory". Michigan Technological University. Archived from the original on 2008-03-05.
"NASA Astrobiology Strategy, 2015" (PDF). Archived from the original (PDF) on 2016-12-22.

wiley.com

4spepublications.onlinelibrary.wiley.com

"Polymer‐based microfluidic devices: A comprehensive review on preparation and applications". doi:10.1002/pen.25831. {{cite journal}}: Cite journal requires |journal= (help)

onlinelibrary.wiley.com

Trofimchuk, Evan; Nilghaz, Azadeh; Sun, Selina; Lu, Xiaonan (2020). "Determination of norfloxacin residues in foods by exploiting the coffee-ring effect and paper-based microfluidics device coupling with smartphone-based detection". Journal of Food Science. 85 (3): 736–743. doi:10.1111/1750-3841.15039. ISSN 1750-3841. PMID 32017096. S2CID 211023292.

worldcat.org

search.worldcat.org

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