Förster distance between perylene and fluorescein in cationic micellar solution

Förster distance between perylene and fluorescein in cationic micellar solution

Peer-reviewed article not indexed in WoS or Scopus

Fluorescence energy transfer via Förster mechanism occurs by a radiationless, coulombic, dipole-dipole interaction between two molecules (donor and acceptor) and is active over the range from 1 to 10 nm. This process is dependent upon the donor-acceptor distance. Therefore, energy transfer has been proposed as a spectroscopic measure for determination of interchromophore distances in macromolecules and microheterogenous systems. This paper deals with determination of critical transfer distance called Förster distance between perylene and fluorescein in two cationic micellar solutions (CTAB and Septonex) as the basis for further experimental work.

Fluorescence energy transfer via Förster mechanism occurs by a radiationless, coulombic, dipole-dipole interaction between two molecules (donor and acceptor) and is active over the range from 1 to 10 nm. This process is dependent upon the donor-acceptor distance. Therefore, energy transfer has been proposed as a spectroscopic measure for determination of interchromophore distances in macromolecules and microheterogenous systems. This paper deals with determination of critical transfer distance called Förster distance between perylene and fluorescein in two cationic micellar solutions (CTAB and Septonex) as the basis for further experimental work.

perylene, fluorescein, energy transfer, cationic micelles, Förster radius

perylene, fluorescein, energy transfer, cationic micelles, Förster radius

HOLÍNKOVÁ, P.; PEKAŘ, M.

2019

11.12.2018

Czech chemical society symposium/Česká společnost chemická

2336-7202

Czech chemical society symposium series

16

6

Czech Republic

488

489

2

http://hdl.handle.net/