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Gascoyne PR, Vykoukal JV, Schwartz JA, Anderson TJ, Vykoukal DM, Current KW, McConaghy C, Becker FF, Andrews C (August 2004). "Dielectrophoresis-based programmable fluidic processors". Lab on a Chip. 4 (4): 299–309. doi:10.1039/b404130e. PMID15269795.
Taniguchi T, Torii T, Higuchi T (February 2002). "Chemical reactions in microdroplets by electrostatic manipulation of droplets in liquid media". Lab on a Chip. 2 (1): 19–23. doi:10.1039/b108739h. PMID15100855.
Abdelgawad M, Freire SL, Yang H, Wheeler AR (May 2008). "All-terrain droplet actuation". Lab on a Chip. 8 (5): 672–7. doi:10.1039/b801516c. PMID18432335.
Barbulovic-Nad I, Yang H, Park PS, Wheeler AR (April 2008). "Digital microfluidics for cell-based assays". Lab on a Chip. 8 (4): 519–26. doi:10.1039/b717759c. PMID18369505.
Thaitrong N, Kim H, Renzi RF, Bartsch MS, Meagher RJ, Patel KD (December 2012). "Quality control of next-generation sequencing library through an integrative digital microfluidic platform". Electrophoresis. 33 (23): 3506–3513. doi:10.1002/elps.201200441. PMID23135807. S2CID205802837.
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Choi K, Boyacı E, Kim J, Seale B, Barrera-Arbelaez L, Pawliszyn J, Wheeler AR (April 2016). "A digital microfluidic interface between solid-phase microextraction and liquid chromatography-mass spectrometry". Journal of Chromatography A. 1444: 1–7. doi:10.1016/j.chroma.2016.03.029. PMID27048987.
Shah GJ, Ohta AT, Chiou EP, Wu MC, Kim CJ (June 2009). "EWOD-driven droplet microfluidic device integrated with optoelectronic tweezers as an automated platform for cellular isolation and analysis". Lab on a Chip. 9 (12): 1732–1739. doi:10.1039/b821508a. PMID19495457.
Nejad HR, Samiei E, Ahmadi A, Hoorfar M (2015). "Gravity-driven hydrodynamic particle separation in digital microfluidic systems". RSC Adv. 5 (45): 35966–35975. Bibcode:2015RSCAd...535966N. doi:10.1039/C5RA02068A.
Geng H, Feng J, Stabryla LM, Cho SK (March 2017). "Dielectrowetting manipulation for digital microfluidics: creating, transporting, splitting, and merging of droplets". Lab on a Chip. 17 (6): 1060–1068. doi:10.1039/c7lc00006e. PMID28217772.
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Luk VN, Wheeler AR (June 2009). "A digital microfluidic approach to proteomic sample processing". Analytical Chemistry. 81 (11): 4524–4530. doi:10.1021/ac900522a. hdl:1807/34790. PMID19476392.
Wu B, von der Ecken S, Swyer I, Li C, Jenne A, Vincent F, et al. (October 2019). "Rapid Chemical Reaction Monitoring by Digital Microfluidics-NMR: Proof of Principle Towards an Automated Synthetic Discovery Platform". Angewandte Chemie. 58 (43): 15372–15376. doi:10.1002/anie.201910052. PMID31449724. S2CID201728604.
Fan SK, Hsu YW, Chen CH (August 2011). "Encapsulated droplets with metered and removable oil shells by electrowetting and dielectrophoresis". Lab on a Chip. 11 (15): 2500–8. doi:10.1039/c1lc20142e. PMID21666906.
Kirby AE, Lafrenière NM, Seale B, Hendricks PI, Cooks RG, Wheeler AR (June 2014). "Analysis on the go: quantitation of drugs of abuse in dried urine with digital microfluidics and miniature mass spectrometry". Analytical Chemistry. 86 (12): 6121–9. doi:10.1021/ac5012969. PMID24906177.
Ng AH, Uddayasankar U, Wheeler AR (June 2010). "Immunoassays in microfluidic systems. Analytical and bioanalytical chemistry". Analytical and Bioanalytical Chemistry. 397 (3): 991–1007. doi:10.1007/s00216-010-3678-8. PMID20422163. S2CID30670634.
Vergauwe N, Witters D, Ceyssens F, Vermeir S, Verbruggen B, Puers R, Lammertyn J (April 2011). "A versatile electrowetting-based digital microfluidic platform for quantitative homogeneous and heterogeneous bio-assays". Journal of Micromechanics and Microengineering. 21 (5): 054026. Bibcode:2011JMiMi..21e4026V. doi:10.1088/0960-1317/21/5/054026. S2CID111122895.
Ng AH, Choi K, Luoma RP, Robinson JM, Wheeler AR (October 2012). "Digital microfluidic magnetic separation for particle-based immunoassays". Analytical Chemistry. 84 (20): 8805–12. doi:10.1021/ac3020627. PMID23013543.
Shamsi MH, Choi K, Ng AH, Wheeler AR (February 2014). "A digital microfluidic electrochemical immunoassay". Lab on a Chip. 14 (3): 547–54. doi:10.1039/c3lc51063h. PMID24292705.
Tsaloglou MN, Jacobs A, Morgan H (September 2014). "A fluorogenic heterogeneous immunoassay for cardiac muscle troponin cTnI on a digital microfluidic device". Analytical and Bioanalytical Chemistry. 406 (24): 5967–76. doi:10.1007/s00216-014-7997-z. PMID25074544. S2CID24266593.
Zhu L, Feng Y, Ye X, Feng J, Wu Y, Zhou Z (September 2012). "An ELISA chip based on an EWOD microfluidic platform". Journal of Adhesion Science and Technology. 26 (12–17): 2113–24. doi:10.1163/156856111x600172. S2CID136668522.
Miller EM, Ng AH, Uddayasankar U, Wheeler AR (January 2011). "A digital microfluidic approach to heterogeneous immunoassays". Analytical and Bioanalytical Chemistry. 399 (1): 337–45. doi:10.1007/s00216-010-4368-2. PMID21057776. S2CID2809777.
Rackus DG, Dryden MD, Lamanna J, Zaragoza A, Lam B, Kelley SO, Wheeler AR (2015). "A digital microfluidic device with integrated nanostructured microelectrodes for electrochemical immunoassays". Lab on a Chip. 15 (18): 3776–84. doi:10.1039/c5lc00660k. PMID26247922.
Küster SK, Fagerer SR, Verboket PE, Eyer K, Jefimovs K, Zenobi R, Dittrich PS (February 2013). "Interfacing droplet microfluidics with matrix-assisted laser desorption/ionization mass spectrometry: label-free content analysis of single droplets". Analytical Chemistry. 85 (3): 1285–9. doi:10.1021/ac3033189. PMID23289755.
Jebrail MJ, Yang H, Mudrik JM, Lafrenière NM, McRoberts C, Al-Dirbashi OY, et al. (October 2011). "A digital microfluidic method for dried blood spot analysis". Lab on a Chip. 11 (19): 3218–24. doi:10.1039/c1lc20524b. PMID21869989.
Ho J, Tan MK, Go DB, Yeo LY, Friend JR, Chang HC (May 2011). "Paper-based microfluidic surface acoustic wave sample delivery and ionization source for rapid and sensitive ambient mass spectrometry". Analytical Chemistry. 83 (9): 3260–6. doi:10.1021/ac200380q. PMID21456580.
Shih SC, Yang H, Jebrail MJ, Fobel R, McIntosh N, Al-Dirbashi OY, et al. (April 2012). "Dried blood spot analysis by digital microfluidics coupled to nanoelectrospray ionization mass spectrometry". Analytical Chemistry. 84 (8): 3731–3738. doi:10.1021/ac300305s. PMID22413743.
Aijian AP, Chatterjee D, Garrell RL (July 2012). "Fluorinated liquid-enabled protein handling and surfactant-aided crystallization for fully in situ digital microfluidic MALDI-MS analysis". Lab on a Chip. 12 (14): 2552–2559. doi:10.1039/C2LC21135A. PMID22569918.
Lapierre F, Piret G, Drobecq H, Melnyk O, Coffinier Y, Thomy V, Boukherroub R (May 2011). "High sensitive matrix-free mass spectrometry analysis of peptides using silicon nanowires-based digital microfluidic device". Lab on a Chip. 11 (9): 1620–1628. doi:10.1039/C0LC00716A. PMID21423926.
Kirby AE, Lafrenière NM, Seale B, Hendricks PI, Cooks RG, Wheeler AR (June 2014). "Analysis on the go: quantitation of drugs of abuse in dried urine with digital microfluidics and miniature mass spectrometry". Analytical Chemistry. 86 (12): 6121–6129. doi:10.1021/ac5012969. PMID24906177.
Swyer I, Soong R, Dryden MD, Fey M, Maas WE, Simpson A, Wheeler AR (November 2016). "Interfacing digital microfluidics with high-field nuclear magnetic resonance spectroscopy". Lab on a Chip. 16 (22): 4424–4435. doi:10.1039/c6lc01073c. PMID27757467.
Swyer I, von der Ecken S, Wu B, Jenne A, Soong R, Vincent F, Schmidig D, Frei T, Busse F, Stronks HJ, Simpson AJ, Wheeler AR (January 2019). "Digital microfluidics and nuclear magnetic resonance spectroscopy for in situ diffusion measurements and reaction monitoring". Lab on a Chip. 19 (4): 641–653. doi:10.1039/C8LC01214H. PMID30648175. S2CID58600090.
Wu B, von der Ecken S, Swyer I, Li CL, Jenne A, Vincent F, Schmidig D, Kuehn T, Beck A, Busse F, Stronks HJ, Soong R, Wheeler AR, Simpson AJ (October 2019). "Rapid Chemical Reaction Monitoring by Digital Microfluidics-NMR: Proof of Principle Towards an Automated Synthetic Discovery Platform". Angewandte Chemie International Edition. 58 (43): 15372–15376. doi:10.1002/anie.201910052. PMID31449724. S2CID201728604.
Nejad HR, Samiei E, Ahmadi A, Hoorfar M (2015). "Gravity-driven hydrodynamic particle separation in digital microfluidic systems". RSC Adv. 5 (45): 35966–35975. Bibcode:2015RSCAd...535966N. doi:10.1039/C5RA02068A.
Palma C, Deegan RD (March 2018). "Droplet Translation Actuated by Photoelectrowetting". Langmuir: The ACS Journal of Surfaces and Colloids. 34 (10): 3177–3185. doi:10.1021/acs.langmuir.7b03340. PMID29457909.
Kirby AE, Wheeler AR (July 2013). "Digital microfluidics: an emerging sample preparation platform for mass spectrometry". Analytical Chemistry. 85 (13): 6178–84. doi:10.1021/ac401150q. PMID23777536.
Teh SY, Lin R, Hung LH, Lee AP (February 2008). "Droplet microfluidics". Lab on a Chip. 8 (2): 198–220. doi:10.1039/B715524G. PMID18231657.
Banerjee A, Liu Y, Heikenfeld J, Papautsky I (December 2012). "Deterministic splitting of fluid volumes in electrowetting microfluidics". Lab on a Chip. 12 (24): 5138–5141. doi:10.1039/c2lc40723j. PMID23042521.
Shamsi MH, Choi K, Ng AH, Wheeler AR (February 2014). "A digital microfluidic electrochemical immunoassay". Lab on a Chip. 14 (3): 547–554. doi:10.1039/c3lc51063h. PMID24292705.
Chang YH, Lee GB, Huang FC, Chen YY, Lin JL (September 2006). "Integrated polymerase chain reaction chips utilizing digital microfluidics". Biomedical Microdevices. 8 (3): 215–225. doi:10.1007/s10544-006-8171-y. PMID16718406. S2CID21275449.
Accardo A, Mecarini F, Leoncini M, Brandi F, Di Cola E, Burghammer M, et al. (February 2013). "Fast, active droplet interaction: coalescence and reactive mixing controlled by electrowetting on a superhydrophobic surface". Lab on a Chip. 13 (3): 332–335. doi:10.1039/c2lc41193h. PMID23224020.
Gascoyne PR, Vykoukal JV, Schwartz JA, Anderson TJ, Vykoukal DM, Current KW, McConaghy C, Becker FF, Andrews C (August 2004). "Dielectrophoresis-based programmable fluidic processors". Lab on a Chip. 4 (4): 299–309. doi:10.1039/b404130e. PMID15269795.
Taniguchi T, Torii T, Higuchi T (February 2002). "Chemical reactions in microdroplets by electrostatic manipulation of droplets in liquid media". Lab on a Chip. 2 (1): 19–23. doi:10.1039/b108739h. PMID15100855.
Abdelgawad M, Freire SL, Yang H, Wheeler AR (May 2008). "All-terrain droplet actuation". Lab on a Chip. 8 (5): 672–7. doi:10.1039/b801516c. PMID18432335.
Barbulovic-Nad I, Yang H, Park PS, Wheeler AR (April 2008). "Digital microfluidics for cell-based assays". Lab on a Chip. 8 (4): 519–26. doi:10.1039/b717759c. PMID18369505.
Thaitrong N, Kim H, Renzi RF, Bartsch MS, Meagher RJ, Patel KD (December 2012). "Quality control of next-generation sequencing library through an integrative digital microfluidic platform". Electrophoresis. 33 (23): 3506–3513. doi:10.1002/elps.201200441. PMID23135807. S2CID205802837.
Seale B, Lam C, Rackus DG, Chamberlain MD, Liu C, Wheeler AR (October 2016). "Digital Microfluidics for Immunoprecipitation". Analytical Chemistry. 88 (20): 10223–10230. doi:10.1021/acs.analchem.6b02915. PMID27700039.
Jebrail MJ, Sinha A, Vellucci S, Renzi RF, Ambriz C, Gondhalekar C, et al. (April 2014). "World-to-digital-microfluidic interface enabling extraction and purification of RNA from human whole blood". Analytical Chemistry. 86 (8): 3856–3862. doi:10.1021/ac404085p. PMID24479881.
Choi K, Ng AH, Fobel R, Chang-Yen DA, Yarnell LE, Pearson EL, et al. (October 2013). "Automated digital microfluidic platform for magnetic-particle-based immunoassays with optimization by design of experiments". Analytical Chemistry. 85 (20): 9638–9646. doi:10.1021/ac401847x. PMID23978190.
Choi K, Boyacı E, Kim J, Seale B, Barrera-Arbelaez L, Pawliszyn J, Wheeler AR (April 2016). "A digital microfluidic interface between solid-phase microextraction and liquid chromatography-mass spectrometry". Journal of Chromatography A. 1444: 1–7. doi:10.1016/j.chroma.2016.03.029. PMID27048987.
Shah GJ, Ohta AT, Chiou EP, Wu MC, Kim CJ (June 2009). "EWOD-driven droplet microfluidic device integrated with optoelectronic tweezers as an automated platform for cellular isolation and analysis". Lab on a Chip. 9 (12): 1732–1739. doi:10.1039/b821508a. PMID19495457.
Geng H, Feng J, Stabryla LM, Cho SK (March 2017). "Dielectrowetting manipulation for digital microfluidics: creating, transporting, splitting, and merging of droplets". Lab on a Chip. 17 (6): 1060–1068. doi:10.1039/c7lc00006e. PMID28217772.
Jebrail MJ, Ng AH, Rai V, Hili R, Yudin AK, Wheeler AR (November 2010). "Synchronized synthesis of peptide-based macrocycles by digital microfluidics". Angewandte Chemie. 49 (46): 8625–8629. doi:10.1002/anie.201001604. PMID20715231.
Luk VN, Wheeler AR (June 2009). "A digital microfluidic approach to proteomic sample processing". Analytical Chemistry. 81 (11): 4524–4530. doi:10.1021/ac900522a. hdl:1807/34790. PMID19476392.
Wu B, von der Ecken S, Swyer I, Li C, Jenne A, Vincent F, et al. (October 2019). "Rapid Chemical Reaction Monitoring by Digital Microfluidics-NMR: Proof of Principle Towards an Automated Synthetic Discovery Platform". Angewandte Chemie. 58 (43): 15372–15376. doi:10.1002/anie.201910052. PMID31449724. S2CID201728604.
Fan SK, Hsu YW, Chen CH (August 2011). "Encapsulated droplets with metered and removable oil shells by electrowetting and dielectrophoresis". Lab on a Chip. 11 (15): 2500–8. doi:10.1039/c1lc20142e. PMID21666906.
Kirby AE, Lafrenière NM, Seale B, Hendricks PI, Cooks RG, Wheeler AR (June 2014). "Analysis on the go: quantitation of drugs of abuse in dried urine with digital microfluidics and miniature mass spectrometry". Analytical Chemistry. 86 (12): 6121–9. doi:10.1021/ac5012969. PMID24906177.
Ng AH, Uddayasankar U, Wheeler AR (June 2010). "Immunoassays in microfluidic systems. Analytical and bioanalytical chemistry". Analytical and Bioanalytical Chemistry. 397 (3): 991–1007. doi:10.1007/s00216-010-3678-8. PMID20422163. S2CID30670634.
Ng AH, Choi K, Luoma RP, Robinson JM, Wheeler AR (October 2012). "Digital microfluidic magnetic separation for particle-based immunoassays". Analytical Chemistry. 84 (20): 8805–12. doi:10.1021/ac3020627. PMID23013543.
Shamsi MH, Choi K, Ng AH, Wheeler AR (February 2014). "A digital microfluidic electrochemical immunoassay". Lab on a Chip. 14 (3): 547–54. doi:10.1039/c3lc51063h. PMID24292705.
Tsaloglou MN, Jacobs A, Morgan H (September 2014). "A fluorogenic heterogeneous immunoassay for cardiac muscle troponin cTnI on a digital microfluidic device". Analytical and Bioanalytical Chemistry. 406 (24): 5967–76. doi:10.1007/s00216-014-7997-z. PMID25074544. S2CID24266593.
Miller EM, Ng AH, Uddayasankar U, Wheeler AR (January 2011). "A digital microfluidic approach to heterogeneous immunoassays". Analytical and Bioanalytical Chemistry. 399 (1): 337–45. doi:10.1007/s00216-010-4368-2. PMID21057776. S2CID2809777.
Rackus DG, Dryden MD, Lamanna J, Zaragoza A, Lam B, Kelley SO, Wheeler AR (2015). "A digital microfluidic device with integrated nanostructured microelectrodes for electrochemical immunoassays". Lab on a Chip. 15 (18): 3776–84. doi:10.1039/c5lc00660k. PMID26247922.
Küster SK, Fagerer SR, Verboket PE, Eyer K, Jefimovs K, Zenobi R, Dittrich PS (February 2013). "Interfacing droplet microfluidics with matrix-assisted laser desorption/ionization mass spectrometry: label-free content analysis of single droplets". Analytical Chemistry. 85 (3): 1285–9. doi:10.1021/ac3033189. PMID23289755.
Jebrail MJ, Yang H, Mudrik JM, Lafrenière NM, McRoberts C, Al-Dirbashi OY, et al. (October 2011). "A digital microfluidic method for dried blood spot analysis". Lab on a Chip. 11 (19): 3218–24. doi:10.1039/c1lc20524b. PMID21869989.
Ho J, Tan MK, Go DB, Yeo LY, Friend JR, Chang HC (May 2011). "Paper-based microfluidic surface acoustic wave sample delivery and ionization source for rapid and sensitive ambient mass spectrometry". Analytical Chemistry. 83 (9): 3260–6. doi:10.1021/ac200380q. PMID21456580.
Shih SC, Yang H, Jebrail MJ, Fobel R, McIntosh N, Al-Dirbashi OY, et al. (April 2012). "Dried blood spot analysis by digital microfluidics coupled to nanoelectrospray ionization mass spectrometry". Analytical Chemistry. 84 (8): 3731–3738. doi:10.1021/ac300305s. PMID22413743.
Aijian AP, Chatterjee D, Garrell RL (July 2012). "Fluorinated liquid-enabled protein handling and surfactant-aided crystallization for fully in situ digital microfluidic MALDI-MS analysis". Lab on a Chip. 12 (14): 2552–2559. doi:10.1039/C2LC21135A. PMID22569918.
Lapierre F, Piret G, Drobecq H, Melnyk O, Coffinier Y, Thomy V, Boukherroub R (May 2011). "High sensitive matrix-free mass spectrometry analysis of peptides using silicon nanowires-based digital microfluidic device". Lab on a Chip. 11 (9): 1620–1628. doi:10.1039/C0LC00716A. PMID21423926.
Kirby AE, Lafrenière NM, Seale B, Hendricks PI, Cooks RG, Wheeler AR (June 2014). "Analysis on the go: quantitation of drugs of abuse in dried urine with digital microfluidics and miniature mass spectrometry". Analytical Chemistry. 86 (12): 6121–6129. doi:10.1021/ac5012969. PMID24906177.
Swyer I, Soong R, Dryden MD, Fey M, Maas WE, Simpson A, Wheeler AR (November 2016). "Interfacing digital microfluidics with high-field nuclear magnetic resonance spectroscopy". Lab on a Chip. 16 (22): 4424–4435. doi:10.1039/c6lc01073c. PMID27757467.
Swyer I, von der Ecken S, Wu B, Jenne A, Soong R, Vincent F, Schmidig D, Frei T, Busse F, Stronks HJ, Simpson AJ, Wheeler AR (January 2019). "Digital microfluidics and nuclear magnetic resonance spectroscopy for in situ diffusion measurements and reaction monitoring". Lab on a Chip. 19 (4): 641–653. doi:10.1039/C8LC01214H. PMID30648175. S2CID58600090.
Wu B, von der Ecken S, Swyer I, Li CL, Jenne A, Vincent F, Schmidig D, Kuehn T, Beck A, Busse F, Stronks HJ, Soong R, Wheeler AR, Simpson AJ (October 2019). "Rapid Chemical Reaction Monitoring by Digital Microfluidics-NMR: Proof of Principle Towards an Automated Synthetic Discovery Platform". Angewandte Chemie International Edition. 58 (43): 15372–15376. doi:10.1002/anie.201910052. PMID31449724. S2CID201728604.
Fair RB, Khlystov A, Tailor TD, Ivanov V, Evans RD, Srinivasan V, et al. (2007-01-01). "Chemical and Biological Applications of Digital-Microfluidic Devices". IEEE Design and Test of Computers. 24 (1): 10–24. CiteSeerX10.1.1.559.1440. doi:10.1109/MDT.2007.8. S2CID10122940.
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Wu B, von der Ecken S, Swyer I, Li CL, Jenne A, Vincent F, Schmidig D, Kuehn T, Beck A, Busse F, Stronks HJ, Soong R, Wheeler AR, Simpson AJ (October 2019). "Rapid Chemical Reaction Monitoring by Digital Microfluidics-NMR: Proof of Principle Towards an Automated Synthetic Discovery Platform". Angewandte Chemie International Edition. 58 (43): 15372–15376. doi:10.1002/anie.201910052. PMID31449724. S2CID201728604.
Zhao Y, Xu T, Chakrabarty K (2011-07-01). "Broadcast Electrode-Addressing and Scheduling Methods for Pin-Constrained Digital Microfluidic Biochips". IEEE Transactions on Computer-Aided Design of Integrated Circuits and Systems. 30 (7): 986–999. doi:10.1109/TCAD.2011.2116250. ISSN0278-0070. S2CID4159209.
Liu Y, Banerjee A, Papautsky I (2014-01-10). "Precise droplet volume measurement and electrode-based volume metering in digital microfluidics". Microfluidics and Nanofluidics. 17 (2): 295–303. doi:10.1007/s10404-013-1318-2. ISSN1613-4982. S2CID16884950.
Vergauwe N, Witters D, Atalay YT, Verbruggen B, Vermeir S, Ceyssens F, et al. (2011-01-26). "Controlling droplet size variability of a digital lab-on-a-chip for improved bio-assay performance". Microfluidics and Nanofluidics. 11 (1): 25–34. doi:10.1007/s10404-011-0769-6. ISSN1613-4982. S2CID93039641.