Optical nanosensors for chemical analysis inside single living cells. 1. Fabrication, characterization, and methods for intracellular delivery of PEBBLE sensors HA Clark, M Hoyer, MA Philbert, R Kopelman Analytical chemistry 71 (21), 4831-4836, 1999 | 510 | 1999 |
Optical nanosensors for chemical analysis inside single living cells. 2. Sensors for pH and calcium and the intracellular application of PEBBLE sensors HA Clark, R Kopelman, R Tjalkens, MA Philbert Analytical chemistry 71 (21), 4837-4843, 1999 | 484 | 1999 |
Nanosensors and nanomaterials for monitoring glucose in diabetes KJ Cash, HA Clark Trends in molecular medicine 16 (12), 584-593, 2010 | 408 | 2010 |
Second-harmonic imaging microscopy of living cells PJ Campagnola, HA Clark, WA Mohler, A Lewis, LM Loew Journal of biomedical Optics 6 (3), 277-286, 2001 | 324 | 2001 |
Optical Drug Monitoring: Photoacoustic Imaging of Nanosensors to Monitor Therapeutic Lithium in Vivo KJ Cash, C Li, J Xia, LV Wang, HA Clark ACS nano 9 (2), 1692-1698, 2015 | 283* | 2015 |
Characterization and application of a new optical probe for membrane lipid domains L Jin, AC Millard, JP Wuskell, X Dong, D Wu, HA Clark, LM Loew Biophysical journal 90 (7), 2563-2575, 2006 | 261 | 2006 |
In vivo biosensing: progress and perspectives G Rong, SR Corrie, HA Clark ACS sensors 2 (3), 327-338, 2017 | 201 | 2017 |
Subcellular optochemical nanobiosensors: probes encapsulated by biologically localised embedding (PEBBLEs) HA Clark, SLR Barker, M Brasuel, MT Miller, E Monson, S Parus, ZY Shi, ... Sensors and Actuators B: Chemical 51 (1-3), 12-16, 1998 | 198 | 1998 |
Cholesterol-enriched lipid domains can be visualized by di-4-ANEPPDHQ with linear and nonlinear optics L Jin, AC Millard, JP Wuskell, HA Clark, LM Loew Biophysical journal 89 (1), L04-L06, 2005 | 139 | 2005 |
Ratiometric and Fluorescence-Lifetime-Based Biosensors Incorporating Cytochrome c ‘ and the Detection of Extra- and Intracellular Macrophage Nitric Oxide SLR Barker, HA Clark, SF Swallen, R Kopelman, AW Tsang, JA Swanson Analytical Chemistry 71 (9), 1767-1772, 1999 | 119 | 1999 |
Species-specific bacteria identification using differential mobility spectrometry and bioinformatics pattern recognition M Shnayderman, B Mansfield, P Yip, HA Clark, MD Krebs, SJ Cohen, ... Analytical chemistry 77 (18), 5930-5937, 2005 | 108 | 2005 |
Fluorescent nano-optodes for glucose detection K Billingsley, MK Balaconis, JM Dubach, N Zhang, E Lim, KP Francis, ... Analytical chemistry 82 (9), 3707-3713, 2010 | 106 | 2010 |
Fluorescent ion-selective nanosensors for intracellular analysis with improved lifetime and size JM Dubach, DI Harjes, HA Clark Nano Letters 7 (6), 1827-1831, 2007 | 106 | 2007 |
Ion-selective nano-optodes incorporating quantum dots JM Dubach, DI Harjes, HA Clark Journal of the American Chemical Society 129 (27), 8418-8419, 2007 | 98 | 2007 |
Optochemical nanosensors and subcellular applications in living cells HA Clark, M Hoyer, S Parus, MA Philbert, R Kopelman Microchimica Acta 131, 121-128, 1999 | 95 | 1999 |
Implantable nanosensors: toward continuous physiologic monitoring TT Ruckh, HA Clark Analytical chemistry 86 (3), 1314-1323, 2014 | 85 | 2014 |
Visualizing sodium dynamics in isolated cardiomyocytes using fluorescent nanosensors JM Dubach, S Das, A Rosenzweig, HA Clark Proceedings of the National Academy of Sciences 106 (38), 16145-16150, 2009 | 82 | 2009 |
Second harmonic generation properties of fluorescent polymer-encapsulated gold nanoparticles HA Clark, PJ Campagnola, JP Wuskell, A Lewis, LM Loew Journal of the American Chemical Society 122 (41), 10234-10235, 2000 | 81 | 2000 |
Protection of sensors for biological applications by photoinitiated chemical vapor deposition of hydrogel thin films SH Baxamusa, L Montero, JM Dubach, HA Clark, S Borros, KK Gleason Biomacromolecules 9 (10), 2857-2862, 2008 | 79 | 2008 |
Phosphorescent nanosensors for in vivo tracking of histamine levels KJ Cash, HA Clark Analytical chemistry 85 (13), 6312-6318, 2013 | 74 | 2013 |