Publikacje


1) K. Stolarczyk, R. Bilewicz, L. Siegfried, T. Kaden, “The dual role of self-assembled monolayers of tetraazamacrocyclic copper (II) complex in ascorbate oxidation catalysis”, Inorganica Chimica Acta 48 (2003) 129,
IF = 1,899; liczba cytowań = 8,
2) K. Stolarczyk, B. Pałys, R. Bilewicz, “Catalytic properties of 4-hydroxythiophenol protected gold nanoclusters supported on gold electrodes”, Journal Electroanalytical Chemistry 564 (2004) 93,
IF = 2,732; liczba cytowań = 10,
3) K. Stolarczyk, R. Bilewicz, A. Skwierawska, J.F. Biernat “Functionalization of electrode surfaces with monolayers of azocompounds and gold clusters”, Journal of Inclusion Phenomena 49 (2004) 173,
IF = 1,22; liczba cytowań = 3,
4) K. Stolarczyk, R. Bilewicz, “Catalytic oxidation of ascorbic acid on 2D and 3D monolayers of 4-hydroxythiophenol”, Electroanalysis 16 (2004) 1609,
IF = 2,721; liczba cytowań = 4,
5) K. Stolarczyk, R. Bilewicz, “Electron transport through alkanethiolate films decorated with monolayer protected gold clusters”, Electrochimica Acta 51 (2006) 2358.
IF = 3,642; liczba cytowań = 14,
6) K. Stolarczyk, E. Nazaruk, J. Rogalski, R. Bilewicz, „Mediatorless catalytic oxygen reduction at boron-doped diamond electrodes” Electrochemistry Communications 9 (2007) 115.
IF = 4,282; liczba cytowań = 21,
7) E.U. Stolarczyk, K. Stolarczyk, „Perspektywy nanotechnologii w medycynie i farmacji i jej wpływ na przemysł farmaceutyczny. Perspectives of nanotechnology in medicine and pharmacy and its influence on Pharmaceutical Industry”, Przemysł Chemiczny 86/7 (2007) 797.
IF = 0,29,
8) K. Stolarczyk, E. Nazaruk , J. Rogalski, R. Bilewicz,” Nanostructured carbon electrodes for laccase catalyzed oxygen reduction without added mediators” Electrochimica Acta 53 (2008) 3983.
IF = 3,642; liczba cytowań = 25,
9) K. Sadowska, E Jabłonowska, K. Stolarczyk, R. Wiser, R. Bilewicz, K.P. Roberts, J.F. Biernat, “ Chemically modified carbon nanotubes: synthesis and implementation”, Polish Journal of Chemistry 82 (2008) 1309.
IF = 0,513,
10) Carbon Nanotubes Derivatized with Mediators for Laccase Catalyzed Oxygen Reduction R. Bilewicz, K. Stolarczyk, K. Sadowska, J. Rogalski, J.F. Biernat ECS Transactions 19 (2009) 27-36.
11) K. Sadowska, K. Stolarczyk, J. F. Biernat, K. P. Roberts, J. Rogalski, R. Bilewicz, Derivatization of single-walled carbon nanotubes with redox mediator for biocatalytic oxygen electrodes", Bioelectrochemisty 80 (2010) 73–80
IF=3,520; liczba cytowań = 6,
12) R. Bilewicz, E. Nazaruk, K. Żelechowska, J. F. Biernat, K. Stolarczyk, K.P. Roberts, G.Ginalska, J. Rogalski, “Carbon Nanotubes Chemically Derivatized with Redox Systems as Mediators for Biofuel Cell Applications”, Biocybernetics and Biomedical Engineering 86 (2010) 101,
13) K. Stolarczyk, M. Sepelowska, D. Lyp, K. Zelechowska, J.F. Biernat, J. Rogalski, K.D. Farmer, K.N. Roberts, R. Bilewicz, Hybrid biobattery based on arylated carbon nanotubes and laccase Bioelectrochemistry, (2011), http://dx.doi.org/10.1016/j.bioelechem.2011.10.001
IF=3,520,
14) K. Stolarczyk, D. Lyp, K. Żelechowska, J.F. Biernat, J. Rogalski, R. Bilewicz, „Arylated Carbon Nanotubes for Biobatteries and Biofuel Cells”, Electrochimica Acta, wyslane do recenzji 2012,
IF = 3,642,
15) K. Zelechowska, K. Stolarczyk, D. Łyp, R. Bilewicz, J.F. Biernat, “Functionalization of carbon nanotubes and their application in biofuel cell construction”, Cent. Eur. J. Phys. (CEJP), wyslane do recenzji 2012.
IF = 0,696