Chemistry Reference
In-Depth Information
29. Cao Y, Koo YE, Kopelman R (2004) Poly(decyl methacrylate)-based fluorescent
PEBBLE swarm nanosensors for measuring dissolved oxygen in biosamples. Analyst
129:745-750
30. Koo YE, Cao Y, Kopelman R, Koo SM, Brasuel M, Philbert MA (2004) Real-time measure-
ments of dissolved oxygen inside live cells by organically modified silicate fluorescent
nanosensors. Anal Chem 76:2498-2505
31. Wu C, Bull B, Christensen K, McNeill J (2009) Ratiometric single-nanoparticle oxygen
sensors for biological imaging. Angew Chem Int Ed 48:2741-2745
32. Wu C, Bull B, Szymanski C, Christensen K, McNeill J (2008) Multicolor conjugated
polymer dots for biological fluorescence imaging. ACS Nano 2:2415-2423
33. Pfister A, Zhang G, Zareno J, Horwitz AF, Fraser CL (2008) Boron polylactide nano-
particles exhibiting fluorescence and phosphorescence in aqueous medium. ACS Nano
2:1252-1258
34. Zhang G, Palmer GM, Dewhirst MW, Fraser CL (2009) A dual-emissive-materials design
concept enables tumour hypoxia imaging. Nat Mater 8:747-751
35. Clark HA, Kopelman R, Tjalkens R, Philbert MA (1999) Optical nanosensors for chemical
analysis inside single living cells. 1. Optical nanosensors for chemical analysis inside single
living cells. 2. Sensors for pH and calcium and the intracellular application of PEBBLE
sensors. Anal Chem 71:4837-4843
36. Sun H, Scharff-Poulsen AM, Gu H, Almdal K (2006) Synthesis and characterization of
ratiometric pH sensing nanoparticles with covalently attached fluorescent dyes. Chem Mater
18:3381-3384
37. Allard E, Larpent C (2008) Core-shell type dually fluorescent polymer nanoparticles for
ratiometric pH-Sensing. J Polym Sci Part A Polym Chem 46:6206-6213
38. McNamara KP, Nguyen T, Dumitrascu G, Ji J, Rosenzweig N, Rosenzweig Z (2001)
Synthesis, characterization, and application of fluorescence sensing lipobeads for intracellu-
lar pH measurements. Anal Chem 73:3240-3246
39. Funfak A, Cao J, Wolfbeis OS, Martin K, K¨hler JM (2009) Monitoring cell cultivation in
microfluidic segments by optical pH sensing with a micro flow-through fluorometer using
dye-doped polymer particles. Microchim Acta 164:279-286
40. Park EJ, Brasuel M, Behrend C, Philbert MA, Kopelman R (2003) Ratiometric optical
PEBBLE nanosensors for real-time magnesium ion concentrations inside viable cells. Anal
Chem 75:3784-3791
41. Sumner JP, Aylott JW, Monson E, Kopelman R (2002) A fluorescent PEBBLE nanosensor
for intracellular free zinc. Analyst 127:11-16
42. Sumner JP, Kopelman R (2005) Alexa Fluor 488 as an iron sensing molecule and its
application in PEBBLE nanosensors. Analyst 130:528-533
43. Brasuel M, Kopelman R, Miller TJ, Tjalkens R, Philbert MA (2001) Fluorescent nanosensors
for intracellular chemical analysis: decyl methacrylate liquid polymer matrix and ion-
exchange-based potassium PEBBLE sensors with real-time application to viable rat C6
glioma cells. Anal Chem 73:2221-2228
44. Brasuel MG, Miller TJ, Kopelman R, Philbert MA (2003) Liquid polymer nano-PEBBLEs
for Cl
analysis and biological applications. Analyst 128:1262-1267
45. Ceresa A, Qin Y, Peper S, Bakker E (2003) Mechanistic insights into the development of
optical chloride sensors based on the [9]mercuracarborand-3 ionophore. Anal Chem
75:133-140
46. Sun H, Scharff-Poulsen AM, Gu H, Jakobsen I, Kossmann JM, Frommer WB, Almdal K
(2008) Phosphate sensing by fluorescent reporter proteins embedded in polyacrylamide
nanoparticles. ACS Nano 2:19-24
47. Sumner JP, Westerberg NM, Stoddard AK, Fierke CA, Kopelman R (2006) Sens Actuators B
113:760-767
48. Xu H, Aylott JW, Kopelman R (2002) Fluorescent nano-PEBBLE sensors designed for
intracellular glucose imaging. Analyst 127:1471-1477
Search WWH ::
Custom Search