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Items: 1 to 50 of 94

1.

Instrument for fine control of drop-on-demand electrohydrodynamic jet printing by current measurement.

Li K, Wang D, Yi S, Jia H, Qian J, Du Z, Ren T, Liang J, Martinez-Chapa SO, Madou M.

Rev Sci Instrum. 2019 Nov 1;90(11):115001. doi: 10.1063/1.5090415.

PMID:
31779448
2.

Microplasma direct writing for site-selective surface functionalization of carbon microelectrodes.

Thiha A, Ibrahim F, Muniandy S, Madou MJ.

Microsyst Nanoeng. 2019 Nov 18;5:62. doi: 10.1038/s41378-019-0103-0. eCollection 2019.

3.

Fabrication of polymer and carbon polyhedra through controlled cross-linking and capillary deformations.

George D, Peraza Hernandez EA, Lo RC, Madou M.

Soft Matter. 2019 Dec 7;15(45):9171-9177. doi: 10.1039/c9sm01410a. Epub 2019 Nov 11.

PMID:
31709428
4.

Pyrolysis-induced shrinking of three-dimensional structures fabricated by two-photon polymerization: experiment and theoretical model.

Cardenas-Benitez B, Eschenbaum C, Mager D, Korvink JG, Madou MJ, Lemmer U, Leon I, Martinez-Chapa SO.

Microsyst Nanoeng. 2019 Aug 26;5:38. doi: 10.1038/s41378-019-0079-9. eCollection 2019.

5.

3D Printing of Elastic Membranes for Fluidic Pumping and Demonstration of Reciprocation Inserts on the Microfluidic Disc.

Bauer M, Bahani A, Ogata T, Madou M.

Micromachines (Basel). 2019 Aug 19;10(8). pii: E549. doi: 10.3390/mi10080549.

6.

Determination of Mercury(II) on A Centrifugal Microfluidic Device Using Ionic Liquid Dispersive Liquid-Liquid Microextraction.

Hui Y, Liu Y, Tang WC, Song D, Madou M, Xia S, Wu T.

Micromachines (Basel). 2019 Aug 8;10(8). pii: E523. doi: 10.3390/mi10080523.

7.

Elastic reversible valves on centrifugal microfluidic platforms.

Aeinehvand MM, Weber L, Jiménez M, Palermo A, Bauer M, Loeffler FF, Ibrahim F, Breitling F, Korvink J, Madou M, Mager D, Martínez-Chapa SO.

Lab Chip. 2019 Mar 13;19(6):1090-1100. doi: 10.1039/c8lc00849c.

PMID:
30785443
8.

Study of the electrostatic jet initiation in near-field electrospinning.

Cisquella-Serra A, Magnani M, Gual-Mosegui Á, Holmberg S, Madou M, Gamero-Castaño M.

J Colloid Interface Sci. 2019 May 1;543:106-113. doi: 10.1016/j.jcis.2019.02.041. Epub 2019 Feb 13.

PMID:
30782516
9.

A micro-dispenser for long-term storage and controlled release of liquids.

Kazemzadeh A, Eriksson A, Madou M, Russom A.

Nat Commun. 2019 Jan 14;10(1):189. doi: 10.1038/s41467-018-08091-z.

10.

Wireless Electrochemical Detection on a Microfluidic Compact Disc (CD) and Evaluation of Redox-Amplification during Flow.

Bauer M, Bartoli J, Martinez-Chapa SO, Madou M.

Micromachines (Basel). 2019 Jan 7;10(1). pii: E31. doi: 10.3390/mi10010031.

11.

A Microfluidic Lab-on-a-Disc (LOD) for Antioxidant Activities of Plant Extracts.

Abd Rahman N, Ibrahim F, Aeinehvand MM, Yusof R, Madou M.

Micromachines (Basel). 2018 Mar 21;9(4). pii: E140. doi: 10.3390/mi9040140.

12.

Rapid Iodine Sensing on Mechanically Treated Carbon Nanofibers.

Cho E, Perebikovsky A, Benice O, Holmberg S, Madou M, Ghazinejad M.

Sensors (Basel). 2018 May 9;18(5). pii: E1486. doi: 10.3390/s18051486.

13.

All-carbon suspended nanowire sensors as a rapid highly-sensitive label-free chemiresistive biosensing platform.

Thiha A, Ibrahim F, Muniandy S, Dinshaw IJ, Teh SJ, Thong KL, Leo BF, Madou M.

Biosens Bioelectron. 2018 Jun 1;107:145-152. doi: 10.1016/j.bios.2018.02.024. Epub 2018 Feb 9.

PMID:
29455024
14.

Graphitizing Non-graphitizable Carbons by Stress-induced Routes.

Ghazinejad M, Holmberg S, Pilloni O, Oropeza-Ramos L, Madou M.

Sci Rep. 2017 Nov 29;7(1):16551. doi: 10.1038/s41598-017-16424-z.

15.

Nitrogen-Rich Polyacrylonitrile-Based Graphitic Carbons for Hydrogen Peroxide Sensing.

Pollack B, Holmberg S, George D, Tran I, Madou M, Ghazinejad M.

Sensors (Basel). 2017 Oct 21;17(10). pii: E2407. doi: 10.3390/s17102407.

16.

Polymethacrylate Coated Electrospun PHB Fibers as a Functionalized Platform for Bio-Diagnostics: Confirmation Analysis on the Presence of Immobilized IgG Antibodies against Dengue Virus.

Hosseini S, Azari P, Jiménez-Moreno MF, Rodriguez-Garcia A, Pingguan-Murphy B, Madou MJ, Martínez-Chapa SO.

Sensors (Basel). 2017 Oct 9;17(10). pii: E2292. doi: 10.3390/s17102292.

17.

A microdevice for rapid, monoplex and colorimetric detection of foodborne pathogens using a centrifugal microfluidic platform.

Sayad A, Ibrahim F, Mukim Uddin S, Cho J, Madou M, Thong KL.

Biosens Bioelectron. 2018 Feb 15;100:96-104. doi: 10.1016/j.bios.2017.08.060. Epub 2017 Aug 31.

PMID:
28869845
18.

Fabrication of 3D Carbon Microelectromechanical Systems (C-MEMS).

Pramanick B, Martinez-Chapa SO, Madou M, Hwang H.

J Vis Exp. 2017 Jun 17;(124). doi: 10.3791/55649.

19.

CD-Based Microfluidics for Primary Care in Extreme Point-of-Care Settings.

Smith S, Mager D, Perebikovsky A, Shamloo E, Kinahan D, Mishra R, Torres Delgado SM, Kido H, Saha S, Ducrée J, Madou M, Land K, Korvink JG.

Micromachines (Basel). 2016 Jan 29;7(2). pii: E22. doi: 10.3390/mi7020022. Review.

20.

Liquid density effect on burst frequency in centrifugal microfluidic platforms.

Al-Faqheri W, Ibrahim F, Thio TH, Joseph K, Mohktar MS, Madou M.

Conf Proc IEEE Eng Med Biol Soc. 2015;2015:3221-4. doi: 10.1109/EMBC.2015.7319078.

PMID:
26736978
21.

Microsphere integrated microfluidic disk: synergy of two techniques for rapid and ultrasensitive dengue detection.

Hosseini S, Aeinehvand MM, Uddin SM, Benzina A, Rothan HA, Yusof R, Koole LH, Madou MJ, Djordjevic I, Ibrahim F.

Sci Rep. 2015 Nov 9;5:16485. doi: 10.1038/srep16485.

22.

Design and Development of Micro-Power Generating Device for Biomedical Applications of Lab-on-a-Disc.

Joseph K, Ibrahim F, Cho J, Thio TH, Al-Faqheri W, Madou M.

PLoS One. 2015 Sep 30;10(9):e0136519. doi: 10.1371/journal.pone.0136519. eCollection 2015.

23.

Reversible thermo-pneumatic valves on centrifugal microfluidic platforms.

Aeinehvand MM, Ibrahim F, Harun SW, Kazemzadeh A, Rothan HA, Yusof R, Madou M.

Lab Chip. 2015 Aug 21;15(16):3358-69. doi: 10.1039/c5lc00634a.

PMID:
26158597
24.

De novo mutations in KIF1A cause progressive encephalopathy and brain atrophy.

Esmaeeli Nieh S, Madou MR, Sirajuddin M, Fregeau B, McKnight D, Lexa K, Strober J, Spaeth C, Hallinan BE, Smaoui N, Pappas JG, Burrow TA, McDonald MT, Latibashvili M, Leshinsky-Silver E, Lev D, Blumkin L, Vale RD, Barkovich AJ, Sherr EH.

Ann Clin Transl Neurol. 2015 Jun;2(6):623-35. doi: 10.1002/acn3.198. Epub 2015 May 1.

25.

Lab-on-a-CD: A Fully Integrated Molecular Diagnostic System.

Kong LX, Perebikovsky A, Moebius J, Kulinsky L, Madou M.

J Lab Autom. 2016 Jun;21(3):323-55. doi: 10.1177/2211068215588456. Epub 2015 Jun 16. Review.

PMID:
26082453
26.

Sequential push-pull pumping mechanism for washing and evacuation of an immunoassay reaction chamber on a microfluidic CD platform.

Thio TH, Ibrahim F, Al-Faqheri W, Soin N, Kahar Bador M, Madou M.

PLoS One. 2015 Apr 8;10(4):e0121836. doi: 10.1371/journal.pone.0121836. eCollection 2015.

27.

Development of a passive liquid valve (PLV) utilizing a pressure equilibrium phenomenon on the centrifugal microfluidic platform.

Al-Faqheri W, Ibrahim F, Thio TH, Bahari N, Arof H, Rothan HA, Yusof R, Madou M.

Sensors (Basel). 2015 Feb 25;15(3):4658-76. doi: 10.3390/s150304658.

28.

Hallucinogens causing seizures? A case report of the synthetic amphetamine 2,5-dimethoxy-4-chloroamphetamine.

Burish MJ, Thoren KL, Madou M, Toossi S, Shah M.

Neurohospitalist. 2015 Jan;5(1):32-4. doi: 10.1177/1941874414528939.

29.

From cellular lysis to microarray detection, an integrated thermoplastic elastomer (TPE) point of care Lab on a Disc.

Roy E, Stewart G, Mounier M, Malic L, Peytavi R, Clime L, Madou M, Bossinot M, Bergeron MG, Veres T.

Lab Chip. 2015 Jan 21;15(2):406-16. doi: 10.1039/c4lc00947a.

PMID:
25385141
30.

Design and implementation of fluidic micro-pulleys for flow control on centrifugal microfluidic platforms.

Soroori S, Kulinsky L, Kido H, Madou M.

Microfluid Nanofluidics. 2014 Jun;16(6):1117-1129.

31.

Biosensing enhancement of dengue virus using microballoon mixers on centrifugal microfluidic platforms.

Aeinehvand MM, Ibrahim F, Harun SW, Djordjevic I, Hosseini S, Rothan HA, Yusof R, Madou MJ.

Biosens Bioelectron. 2015 May 15;67:424-30. doi: 10.1016/j.bios.2014.08.076. Epub 2014 Sep 3.

PMID:
25220800
32.

Three-dimensional carbon interdigitated electrode arrays for redox-amplification.

Kamath RR, Madou MJ.

Anal Chem. 2014 Mar 18;86(6):2963-71. doi: 10.1021/ac4033356. Epub 2014 Mar 4.

PMID:
24564715
33.

Latex micro-balloon pumping in centrifugal microfluidic platforms.

Aeinehvand MM, Ibrahim F, Harun SW, Al-Faqheri W, Thio TH, Kazemzadeh A, Madou M.

Lab Chip. 2014 Mar 7;14(5):988-97. doi: 10.1039/c3lc51116b.

34.

Experimental validation of numerical study on thermoelectric-based heating in an integrated centrifugal microfluidic platform for polymerase chain reaction amplification.

Amasia M, Kang SW, Banerjee D, Madou M.

Biomicrofluidics. 2013 Jan 30;7(1):14106. doi: 10.1063/1.4789756. eCollection 2013.

35.

Monolithic carbon structures including suspended single nanowires and nanomeshes as a sensor platform.

Lim Y, Heo JI, Madou M, Shin H.

Nanoscale Res Lett. 2013 Nov 20;8(1):492. doi: 10.1186/1556-276X-8-492.

36.

PPyDEP: a new approach to microparticle manipulation employing polymer-based electrodes.

Perez-Gonzalez VH, Ho V, Kulinsky L, Madou M, Martinez-Chapa SO.

Lab Chip. 2013 Dec 7;13(23):4642-52. doi: 10.1039/c3lc50893e.

PMID:
24121252
37.

Multi-level 3D implementation of thermo-pneumatic pumping on centrifugal microfluidic CD platforms.

Thio TH, Ibrahim F, Al-Faqheri W, Soin N, Abdul Kahar MK, Madou M.

Conf Proc IEEE Eng Med Biol Soc. 2013;2013:5513-6. doi: 10.1109/EMBC.2013.6610798.

PMID:
24110985
38.

Novel liquid equilibrium valving on centrifugal microfluidic CD platform.

Al-Faqheri W, Ibrahim F, Thio TH, Arof H, Madou M.

Conf Proc IEEE Eng Med Biol Soc. 2013;2013:5509-12. doi: 10.1109/EMBC.2013.6610797.

PMID:
24110984
39.

The effect of contact angles and capillary dimensions on the burst frequency of super hydrophilic and hydrophilic centrifugal microfluidic platforms, a CFD study.

Kazemzadeh A, Ganesan P, Ibrahim F, He S, Madou MJ.

PLoS One. 2013 Sep 12;8(9):e73002. doi: 10.1371/journal.pone.0073002. eCollection 2013.

40.

De novo mutations in epileptic encephalopathies.

Epi4K Consortium; Epilepsy Phenome/Genome Project, Allen AS, Berkovic SF, Cossette P, Delanty N, Dlugos D, Eichler EE, Epstein MP, Glauser T, Goldstein DB, Han Y, Heinzen EL, Hitomi Y, Howell KB, Johnson MR, Kuzniecky R, Lowenstein DH, Lu YF, Madou MR, Marson AG, Mefford HC, Esmaeeli Nieh S, O'Brien TJ, Ottman R, Petrovski S, Poduri A, Ruzzo EK, Scheffer IE, Sherr EH, Yuskaitis CJ, Abou-Khalil B, Alldredge BK, Bautista JF, Berkovic SF, Boro A, Cascino GD, Consalvo D, Crumrine P, Devinsky O, Dlugos D, Epstein MP, Fiol M, Fountain NB, French J, Friedman D, Geller EB, Glauser T, Glynn S, Haut SR, Hayward J, Helmers SL, Joshi S, Kanner A, Kirsch HE, Knowlton RC, Kossoff EH, Kuperman R, Kuzniecky R, Lowenstein DH, McGuire SM, Motika PV, Novotny EJ, Ottman R, Paolicchi JM, Parent JM, Park K, Poduri A, Scheffer IE, Shellhaas RA, Sherr EH, Shih JJ, Singh R, Sirven J, Smith MC, Sullivan J, Lin Thio L, Venkat A, Vining EP, Von Allmen GK, Weisenberg JL, Widdess-Walsh P, Winawer MR.

Nature. 2013 Sep 12;501(7466):217-21. doi: 10.1038/nature12439. Epub 2013 Aug 11.

41.

Flow-enhanced electrochemical immunosensors on centrifugal microfluidic platforms.

Kim TH, Abi-Samra K, Sunkara V, Park DK, Amasia M, Kim N, Kim J, Kim H, Madou M, Cho YK.

Lab Chip. 2013 Sep 21;13(18):3747-54. doi: 10.1039/c3lc50374g.

PMID:
23900555
42.

Visualization and measurement of capillary-driven blood flow using spectral domain optical coherence tomography.

Cito S, Ahn YC, Pallares J, Duarte RM, Chen Z, Madou M, Katakis I.

Microfluid Nanofluidics. 2012 Sep;13(2):227-237.

43.

Electrochemical velocimetry on centrifugal microfluidic platforms.

Abi-Samra K, Kim TH, Park DK, Kim N, Kim J, Kim H, Cho YK, Madou M.

Lab Chip. 2013 Aug 21;13(16):3253-60. doi: 10.1039/c3lc50472g. Epub 2013 Jun 21.

PMID:
23787459
44.

Push pull microfluidics on a multi-level 3D CD.

Thio TH, Ibrahim F, Al-Faqheri W, Moebius J, Khalid NS, Soin N, Kahar MK, Madou M.

Lab Chip. 2013 Aug 21;13(16):3199-209. doi: 10.1039/c3lc00004d. Epub 2013 Jun 17.

45.

Serum complement enhances the responses of genotoxin- and oxidative stress-sensitive Escherichia coli bioreporters.

Lee S, Amasia M, Madou M, Mitchell RJ.

Biosens Bioelectron. 2013 Aug 15;46:175-82. doi: 10.1016/j.bios.2013.02.038. Epub 2013 Mar 4.

PMID:
23545153
46.

Vacuum/compression valving (VCV) using parrafin-wax on a centrifugal microfluidic CD platform.

Al-Faqheri W, Ibrahim F, Thio TH, Moebius J, Joseph K, Arof H, Madou M.

PLoS One. 2013;8(3):e58523. doi: 10.1371/journal.pone.0058523. Epub 2013 Mar 11.

47.

Present technology and future trends in point-of-care microfluidic diagnostics.

Kulinsky L, Noroozi Z, Madou M.

Methods Mol Biol. 2013;949:3-23. doi: 10.1007/978-1-62703-134-9_1. Review.

PMID:
23329432
48.

Theoretical development and critical analysis of burst frequency equations for passive valves on centrifugal microfluidic platforms.

Thio TH, Soroori S, Ibrahim F, Al-Faqheri W, Soin N, Kulinsky L, Madou M.

Med Biol Eng Comput. 2013 May;51(5):525-35. doi: 10.1007/s11517-012-1020-7. Epub 2013 Jan 6.

49.

Diffusion-free mediator based miniature biofuel cell anode fabricated on a carbon-MEMS electrode.

Bisht GS, Holmberg S, Kulinsky L, Madou M.

Langmuir. 2012 Oct 2;28(39):14055-64. doi: 10.1021/la302708h. Epub 2012 Sep 17.

PMID:
22946444
50.

A computer-controlled near-field electrospinning setup and its graphic user interface for precision patterning of functional nanofibers on 2D and 3D substrates.

Bisht G, Nesterenko S, Kulinsky L, Madou M.

J Lab Autom. 2012 Aug;17(4):302-8. doi: 10.1177/2211068212446372. Epub 2012 May 11.

PMID:
22580953

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