DISSERTATION
resolver
resolver
Create successful ePaper yourself
Turn your PDF publications into a flip-book with our unique Google optimized e-Paper software.
microarray using a biotinylated intercalator as coupling site for an enzyme label. Talanta<br />
2015, 143, 19–26.<br />
101. Gebala M.; Hartwich G.; Schuhmann W.: Amplified detection of DNA hybridization<br />
using post-labelling with a biotin-modified intercalator. Faraday Discuss. 2011, 149, 11–<br />
22.<br />
102. Yang Z.; Anglès d'Auriac M.; Goggins S.; Kasprzyk-Hordern B.; Thomas K. V.; Frost<br />
C. G.; Estrela P.: A novel DNA biosensor using a ferrocenyl intercalator applied to the<br />
potential detection of human population biomarkers in wastewater. Environ. Sci. Technol.<br />
2015, 49, 5609–5617.<br />
103. Won B. Y.; Lee D. W.; Shin S. C.; Cho D. Y.; Lee S. S.; Yoon H. C.; Park H. G.: A<br />
DNA intercalation-based electrochemical method for detection of Chlamydia trachomatis<br />
utilizing peroxidase-catalyzed signal amplification. Biosens. Bioelec. 2008, 24, 665–669.<br />
104. Gebala M.; Stoica L.; Guschin D.; Stratmann L.; Hartwich G.; Schuhmann W.: A<br />
biotinylated intercalator for selective post-labeling of double-stranded DNA as a basis for<br />
high-sensitive DNA assays. Electrochem. Commun. 2010, 12, 684–688.<br />
105. Biver T.; Eltugral N.; Pucci A.; Ruggeri G.; Schena A.; Secco F.; Venturini M.:<br />
Synthesis, characterization, DNA interaction and potential applications of gold<br />
nanoparticles functionalized with Acridine Orange fluorophores. Dalton Trans. 2011, 40,<br />
4190–4199.<br />
106. Georghiou S.: Interaction of acridine drugs with DNA and nucleotides. Photochem.<br />
Photobiol. 1977, 26, 59–68.<br />
107. Won B. Y.; Choi H. G.; Kim K. H.; Byun S. Y.; Kim H. S.; Yoon H. C.:<br />
Bioelectrocatalytic signaling from immunosensors with back-filling immobilization of<br />
glucose oxidase on biorecognition surfaces. Biotechnol Bioeng 2005, 89, 815–821.<br />
108. Courjean O.; Gao F.; Mano N.: Deglycosylation of Glucose Oxidase for Direct and<br />
Efficient Glucose Electrooxidation on a Glassy Carbon Electrode. Angew. Chem. 2009,<br />
121, 6011–6013.<br />
109. Libertino S.; Aiello V.; Scandurra A.; Renis M.; Sinatra F.: Immobilization of the<br />
Enzyme Glucose Oxidase on Both Bulk and Porous SiO2 Surfaces. Sensors 2008, 8,<br />
5637–5648.<br />
110. Schuhmann W.; Ohara T. J.; Schmidt H. L.; Heller A.: Electron transfer between<br />
glucose oxidase and electrodes via redox mediators bound with flexible chains to the<br />
enzyme surface. J. Am. Chem. Soc. 1991, 113, 1394–1397.<br />
111. Hoogvliet J. C.; Dijksma M.; Kamp B.; van Bennekom, W. P.: Electrochemical<br />
Pretreatment of Polycrystalline Gold Electrodes To Produce a Reproducible Surface<br />
Roughness for Self-Assembly: A Study in Phosphate Buffer pH 7.4. Anal. Chem. 2000,<br />
72, 2016–2021.<br />
112. Oesch U.; Janata J.: Electrochemical study of gold electrodes with anodic oxide films -<br />
I. Formation and reduction behaviour of anodic oxides on gold. Electrochim. Acta 1983,<br />
28, 1237–1246.<br />
132
Change language