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1.
Inertial flow focusing: a case study in optimizing cellular trajectory through a microfluidic MEMS device for timing-critical applications.
Biomed Microdevices
; 22(3): 52, 2020 08 08.
Artigo
em Inglês
| MEDLINE | ID: mdl-32770358
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2.
Expanding the potential of standard flow cytometry by extracting fluorescence lifetimes from cytometric pulse shifts.
Cytometry A
; 85(12): 999-1010, 2014 Dec.
Artigo
em Inglês
| MEDLINE | ID: mdl-25274073
3.
One-dimensional acoustic standing waves in rectangular channels for flow cytometry.
Methods
; 57(3): 259-71, 2012 Jul.
Artigo
em Inglês
| MEDLINE | ID: mdl-22465280
4.
Digital analysis and sorting of fluorescence lifetime by flow cytometry.
Cytometry A
; 77(9): 861-72, 2010 Sep.
Artigo
em Inglês
| MEDLINE | ID: mdl-20662090
5.
Development of small and inexpensive digital data acquisition systems using a microcontroller-based approach.
Cytometry A
; 75(12): 979-89, 2009 Dec.
Artigo
em Inglês
| MEDLINE | ID: mdl-19852060
6.
Digital data acquisition and processing.
Curr Protoc Cytom
; 71: 10.19.1-10.19.13, 2015 Jan 05.
Artigo
em Inglês
| MEDLINE | ID: mdl-25559220
7.
Toward the measurement of multiple fluorescence lifetimes in flow cytometry: maximizing multi-harmonic content from cells and microspheres.
J Biophotonics
; 8(11-12): 908-17, 2015 Nov.
Artigo
em Inglês
| MEDLINE | ID: mdl-25727072
8.
Capture of Fluorescence Decay Times by Flow Cytometry.
Curr Protoc Cytom
; 59(125): 1.25.1-1.25.21, 2012.
Artigo
em Inglês
| MEDLINE | ID: mdl-25419263
9.
Evaluation of a green laser pointer for flow cytometry.
Cytometry A
; 71(10): 809-17, 2007 Oct.
Artigo
em Inglês
| MEDLINE | ID: mdl-17712796
10.
Open, reconfigurable cytometric acquisition system: ORCAS.
Cytometry A
; 71(11): 915-24, 2007 Nov.
Artigo
em Inglês
| MEDLINE | ID: mdl-17680705