Nanoscale Fluorescent Sensors for Intracellular Analysis

Overview

Journal Fresenius J Anal Chem

Specialty Chemistry

Date 2001 Feb 28

PMID 11225769

Citations 5

Authors

J Lu

Z Rosenzweig

Affiliations

Soon will be listed here.

Abstract

There is a growing interest in the development of submicron optochemical sensing devices. Miniaturization of sensors to nano-dimensions decreases their typical response time down to the millisecond time scale. Their penetration volume is reduced to a few cubic micrometers and they exhibit a spatial resolution at the nanometer scale. In this review the fabrication of submicron optical fiber fluorescent sensors and particle-based fluorescent nanosensors is described. The functional characteristics of these exciting miniaturized fluorescent sensors and their applications for quantitative measurement of intracellular analytes are demonstrated.

Citing Articles

Optical Sensing and Imaging of pH Values: Spectroscopies, Materials, and Applications.

Steinegger A, Wolfbeis O, Borisov S Chem Rev. 2020; 120(22):12357-12489.

PMID: 33147405 PMC: 7705895. DOI: 10.1021/acs.chemrev.0c00451.

Reactivity of ZrO(MFP) and ZrO(RP) Nanoparticles with LnCl for Solvatochromic Luminescence Modification and pH-Dependent Optical Sensing.

Wehner T, Heck J, Feldmann C, Muller-Buschbaum K Chemistry. 2019; 25(72):16630-16638.

PMID: 31626707 PMC: 6973228. DOI: 10.1002/chem.201903744.

Optical oxygen micro- and nanosensors for plant applications.

Ast C, Schmalzlin E, Lohmannsroben H, van Dongen J Sensors (Basel). 2012; 12(6):7015-32.

PMID: 22969334 PMC: 3435963. DOI: 10.3390/s120607015.

Perspective on optical biosensors and integrated sensor systems.

Ligler F Anal Chem. 2009; 81(2):519-26.

PMID: 19140774 PMC: 2666073. DOI: 10.1021/ac8016289.

SERS-based plasmonic nanobiosensing in single living cells.

Scaffidi J, Gregas M, Seewaldt V, Vo-Dinh T Anal Bioanal Chem. 2008; 393(4):1135-41.

PMID: 19066865 PMC: 4022298. DOI: 10.1007/s00216-008-2521-y.