Nano- and microsized zeolites as a perspective material for potentiometric biosensors creation

Nanoscale Research Letters

Volumn 10, Issue 1, 2015, Pages

  Soldatkin, Oleksandr O ^a,b   Shelyakina, Margaryta K ^a   Arkhypova, Valentyna N ^a   Soy, Esin ^c   Kirdeciler, Salih Kaan ^c   Ozansoy Kasap, Berna ^c   Lagarde, Florence ^d   Jaffrezic Renault, Nicole ^d   Akata Kurç, Burcu ^c   Soldatkin, Alexei P ^a,b   Dzyadevych, Sergei V ^a,b  

^a INSTITUTE OF MOLECULAR BIOLOGY AND GENETICS   (Ukraine)

^b TARAS SHEVCHENKO NATIONAL UNIVERSITY OF KYIV   (Ukraine)

^c MIDDLE EAST TECHNICAL UNIVERSITY   (Turkey)

^d Institut des Sciences Analytiques   (France)

Author keywords

Biosensor; Clinoptilolite; Enzyme; pH ISFET; Zeolite; Zeolite A; Zeolite BEA

Indexed keywords

BIOSENSORS; ENZYME ELECTRODES; ENZYMES; ION SENSITIVE FIELD EFFECT TRANSISTORS; POTENTIOMETERS (ELECTRIC MEASURING INSTRUMENTS); POTENTIOMETRIC SENSORS;

CLINOPTILOLITES; ELECTRODE SURFACES; ENZYME-BASED BIOSENSORS; LINEAR MEASUREMENTS; POTENTIOMETRIC BIOSENSORS; THERMAL MODIFICATION; TWO-LAYER METHODS; ZEOLITE-A;

ZEOLITES;

EID: 84923801785     PISSN: 19317573     EISSN: 1556276X     Source Type: Journal    
DOI: 10.1186/s11671-015-0768-8     Document Type: Article

References (19)

1. Lee WY, Lee KS, Kim TH, Shin MC, Park JK. Microfabricated conductometric urea biosensor based on sol–gel immobilized urease. Electroanalysis. 2000;12:78–82.
2. Lee W, Kim S, Kim T, Lee KS, Shin M, Park J. Sol–gel-derived thick-film conductometric biosensor for urea determination in serum. Anal Chim Acta. 2000;404:195–203.
3. Jaffrezic-Renault N, Dzyadevych SV. Conductometric microbiosensors for environmental monitoring. Sensors. 2008;8:2569–88.
4. Adhikari B, Majumdar S. Polymersin sensor applications. Prog Polym Sci. 2004;29:699–766.
5. Bayramoğlu G, Yalçin E, Arıca MY. Immobilization of urease via adsorption onto l-histidine-Ni(II) complexed poly(HEMA-MAH) microspheres: preparation and characterization. Process Biochem. 2005;40:3505–13.
6. Chinnayelka S, McShane MJ. Microcapsule biosensors using competitive binding resonance energy transfer assays based on apoenzymes. Anal Chem. 2005;77:5501–11.
7. Wang J. Carbon-nanotube based electrochemical biosensors: a review. Electroanalysis. 2005;17:7–14.
8. 2-modified multi-wall carbone nanotubes. Biopolym Cell. 2010;26:56–61.
9. Soy E, Arkhypova V, Soldatkin O, Shelyakina M, Dzyadevych S, Warzywoda J, et al. Investigation of characteristics of urea and butyrylcholine chloride biosensors based on ion-selective field-effect transistors modified by the incorporation of heat-treated zeolite Beta crystals. Mater Sci Eng C. 2012;32:1835–42.
10. Kucherenko IS, Soldatkin OO, Kasap B, Öztürk S, Akata B, Soldatkin AP, et al. Elaboration of urease adsorption on silicalite for biosensor creation. Electroanalysis. 2012;24:1380–5.
11. Soldatkin OO, Soy E, Errachid A, Jaffrezic-Renault N, Akata B, Soldatkin AP, et al. Influence of composition of zeolite/enzyme nanobiocomposites on analytical characteristics of urea biosensor based on ion-selective field-effect transistors. Sensor Lett. 2011;9:2320–6.
12. Shelyakina MK, Soldatkin OO, Arkhypova VM, Kasap BO, Akata B, Dzyadevych SV. Study of zeolite influence on analytical characteristics of urea biosensor based on ion-selective field-effect transistors. Nanoscale Res Lett. 2014;9:124.
13. Carvalho RH, Lemos F, Cabral JMS, Ramôa RF. Influence of the presence of NaY zeolite on the activity of horseradish peroxidase in the oxidation of phenol. J Molecular Catal B. 2007;44:39.
14. Goriushkina TB, Akata Kurç B, Sacco Jr A, Dzyadevych SV. Application of zeolites for immobilization of glucose oxidase in amperometric biosensors. Sens Electron Microsystem Technol. 2010;1:36–43.
15. Soldatkin OO, Ozansoy Kasap B, Akata Kurc B, Soldatkin AP, Dzyadevych SV, El'skaya AV. Elaboration of new method of enzyme adsorption on silicalite and nano beta zeolite for amperometric biosensor creation. Biopolym Cell. 2014;30:291–8.
16. Kirdeciler SK, Soy E, Ozturk S, Kucherenko I, Soldatkin O, Dzyadevych S, et al. A novel urea conductometric biosensor based on zeolite immobilized urease. Talanta. 2011;85:1435–41.
17. Soldatkin OO, Kucherenko IS, Marchenko SV, Ozansoy Kasap B, Akata B, Soldatkin AP, et al. Application of enzyme/zeolite sensor for urea analysis in serum. Mater Sci Eng C. 2014;42:155–60.
18. Higgins JB, LaPierre RB, Schlenker JL, Rohrman AC, Wood JD, Kerr GT, et al. The framework topology of zeolite beta. Zeolites. 1988;8:446–52.
19. Creyghton EJ, Ganeshie SD, Downing RS, van Bekkum H. Stereoselective Meerwein-Ponndorf-Verley and Oppenauer reactions catalyzed by zeolite BEA. J Mol Catal A. 1997;115:457–72.