Publikationen

Publikationen

2024/2025Bereich öffnenBereich schließen

[3]
G. Göbel, F. Müller, A. Talke, U. Ahnert, F. Lisdat,
"Qualitative and quantitative protease activity tests based on protein degradation in three-dimensional structures",
Bioelectrochemistry, 2024, 160, 108775

[2]
S. Zhao, Z. Yue, D. Zhu, J. Harberts, R. H. Blick, R. Zierold, F. Lisdat, W. J. Parak,
"Quantum Dot/TiO2 Nanocomposite-Based Photoelectrochemical Sensor for Enhanced H2O2 Detection Applied for Cell Monitoring and Visualization",
Small, 2024, 2401703

[1]
C. Kallabis, P. Beyerlein, F. Lisdat,
"Quantitative determination of dopamine in the presence of interfering substances supported by machine learning tools",
Bioelectrochemistry, 2024, 157, 108667
 

2022/2023Bereich öffnenBereich schließen

[6]
S. Morlock, M. Schenderlein, K. Kano, A. Zouni, F. Lisdat,
"Coupling of formate dehydrogenase to inverse-opal ITO-PSI electrodes for photocatalytic CO2 reduction",
Biosensors and Bioelectronics: X 14, 2023, 100359

[5]
H. Dörpholz, S. Subramanian, A. Zouni, F. Lisdat ,
"Photoelectrochemistry of a photosystem I – ferredoxin construct on ITO electrodes ",
Bioelectrochemistry, 2023, 153, 108459

[4]
S. Morlock, S. K. Subramanian, A. Zouni, F. Lisdat,
"Closing the green gap of photosystem I with synthetic fluorophores for enhanced photocurrent generation in photobiocathodes",
Chemical Science, 2023, 14, 1696 - 1708

[3]
S. Zhao, M. Riedel, J. Patarroyo, N. Bastús, V. Puntes, Y. Zhao, F, Lisdat, W. Parak,
"Tailoring of the photocatalytic activity of CeO2 nanoparticles by the presence of plasmonic Ag nanoparticles",
Nanoscale, 2022, 14, 12048

[2]
S. Morlock, S. K. Subramanian, A. Zouni, F. Lisdat,
"Bio-inorganic hybrid structures for direct electron transfer to photosystem I in photobioelectrodes",
Biosensors and Bioelectronics, 2022, 214, 114495

[1]
N. K. Heinsohn, R. R. Niedl, A. Anielski, F. Lisdat, C. Beta,
"Electrophoretic µPAD for purification and analysis of DNA samples",
Biosensors, 2022, 12(2), 62

2020/2021Bereich öffnenBereich schließen

[11]
N. Nioradze, D. Ciornii, A. Kölsch, G. Göbel, D. E. Khoshtariya, A. Zouni, F. Lisdat,
"Electrospinning for building 3D structured photoactive biohybrid electrodes",
Bioelectrochemistry, 2021, 142, 107945

[10]
S. Morlock, S. K. Subramanian, A. Zouni, F. Lisdat,
"Scalable Three-Dimensional Photobioelectrodes Made of Reduced Graphene Oxide Combined with Photosystem I",
ACS Applied Materials & Interfaces, 2021, 13, 11237-11246

[9]
S. Zhao, M. Riedel, J. Patarroyo, N. Bastus, V. Puntes, Z. Yue, F. Lisdat, W. J. Parak,
"Introducing visible-light sensitivity into photocatalytic CeO2 nanoparticles by hybrid particle preparation exploiting plasmonic properties of gold: enhanced photoelectrocatalysis exemplified for hydrogen peroxide sensing",
Nanoscale, 2021, 13, 980-990

[8]
Hoefs, S.; Greiner, T.; Goebel, G.; et al.,
"Activity determination of human monoamine oxidase B (Mao B) by selective capturing and amperometric hydrogen peroxide detection",
Sensors and Actuators B-Chemical, 2021, Volume 328, Article Number: 129020

[7]
M. Masi, P. Bollella, M. Riedel, F. Lisdat, E. Katz,
"Photobiofuel Cell with Sustainable Energy Generation Based on Micro/Nanostructured Electrode Materials",
ACS Applied Energy Materials, 2020, Volumen 3(10), pp. 9543-9549

[6]
M. Riedel, S. Höfs, A. Ruff, W. Schuhmann, F. Lisdat,
"A tandem solar biofuel cell: Harnessing energy from light and biofuels",
Angewandte Chemie, International Edition, 2020, 60(4), pp. 2078-2083

[5]
A. Kölsch, C. Radon, M. Golub, A. Baumert, J. Bürger, T. Mielke, F. Lisdat, A. Feoktystov, J. Pieper, A. Zouni, P. Wendler,
"Current limits of structural biology: the transient interaction between cytochrome c6 and photosystem I",
Current Research in Structural Biology, 2020, Volume 2, pp. 171-179

[4]
C. M. Stracke, G. van Dijk, J. Fansen, F. Lisdat, W. Simoens,
"A Holistic Pedagogical Model for STEM learning and education inside and outside the classroom",
HCI International 2020 Conference Proceedings, LCT 2020, Part I, HCII 2020, LNCS 12205, pp. 568–581

[3]
F. Lisdat,
"Coupling biology to electrochemistry—future trends and needs",
Journal of Solid State Electrochemistry, 2020, Vol. 24(9)(SI), p. 2125-2127

[2]
F. Lisdat,
"PQQ-GDH – Structure, function and application in bioelectrochemistry",
Bioelectrochemistry, 2020, 134, 107496

[1]
M. Riedel, A. Ruff, W. Schuhmann, F. Lisdat, F. Conzuelo,
"Light-controlled imaging of biocatalytic reactions via scanning photoelectrochemical microscopy for multiplexed sensing",
ChemComm, 2020, 56, 5147-5150

2019/2018Bereich öffnenBereich schließen

[14]
G. Göbel, A. Talke, U. Ahnert, F. Lisdat,
"Electrochemical Activity Determination of Catechol‐O‐methyl Transferase by Selective Dopamine Detection",
ChemElectroChem, 2019, Vol. 6 (17), p.4533-4540

[13]
D. Ciornii, A. Kolsch, A. Zouni, F.  Lisdat,
" A precursor-approach in constructing 3D ITO electrodes for the improved performance of photosystem I-cyt c photobioelectrodes ",
Nanoscale, 2019, Vol. 11 (34), p. 15862-15870

[12]
S. Zhao, F. Caruso,L. Dähne, G. Decher, B. G. De Geest, J. Fan, N. Feliu, Y. Gogotsi, P. T. Hammond, M. C. Hersam, A. Khademhosseini, N. Kotov, S. Leporatti, Y. Li, F. Lisdat, L. M. Liz-Marzán, S. Moya, P. Mulvaney, A. L. Rogach, S. Roy, D. G. Shchukin, A. G. Skirtach, M. M. Stevens, G. B. Sukhorukov, P. S. Weiss, Z. Yue,  D. Zhu, W. J. Parak,
"The Future of Layer-by-Layer Assembly: A Tribute to ACS Nano Associate Editor Helmuth Möhwald",
ACS Nano, 2019, Vol. 13, p. 6151-6169

[11]
S. Zhao, J. Völkner, M. Riedel, G. Witte, Z. Yue, F. Lisdat, W. J. Parak,
"Multiplexed Readout of Enzymatic Reactions by Means of Laterally Resolved Illumination of Quantum Dot Electrodes",
ACS Applied Materials & Interfaces, 2019, Vol. 11 (24), p. 21830-21839

[10]
D. Ciornii, A. Kölsch, A. Zouni, F. Lisdat,
"Exploiting new ways for a more efficient orientation and wiring of PSI to electrodes: A fullerene C70 approach",
Electrochimica Acta, 2019, Vol. 299, p. 531-539

[09]
M. Riedel, J. Wersig, A. Ruff, W. Schuhmann, A. Zouni, F. Lisdat,
"A Z-scheme inspired photobioelectrochemical H2O/O2 cell with 1V open-circuit voltage combining photosystem II and PbS quantum dots",
Angewandte Chemie, 2019, International Edition, Vol. 58 (3), p. 801-805

[08]
S. C. Feifel, K. R. Stieger, M. Hejazi, X. Wang, M. Ilbert, A. Zouni, E. Lojou, F. Lisdat,
" Dihemic c(4)-type cytochrome acting as a surrogate electron conduit: Artificially interconnecting a photosystem I supercomplex with electrodes",
Electrochemistry Communications, 2018, Vol. 91, p. 49-53

[07]
M. Riedel, W. Parak, A. Ruff, W. Schuhmann, F. Lisdat,
" Light as trigger for biocatalysis: Photonic wiring of FAD-dependent glucose dehydrogenase to quantum dot-sensitized inverse opal TiO2 architectures via redox polymers",
ACS Catalysis, 2018, Vol. 8, 5212-5220

[06]
A. Kölsch, M. Hejazi, K. R. Stieger, S. C. Feifel, J. F. Kern, F. Müh, F. Lisdat, H. Lokstein, A. Zouni,
"Insights into the binding behavior of native and non-native cytochromes to Photosystem I from Thermosynechococcus elongatus",
Journal of Biological Chemistry JBC, 2018, Vol. 293 (23), p. 9090-9100

[05]
G. Fusco, G. Göbel, R. Zanoni, M. P. Bracciale, G. Favero, F. Mazzei, F. Lisdat,
"Aqueous polythiophene electrosynthesis: A new route to an efficient coupling of PQQ-dependent glucose dehydrogenase for sensing and bioenergetic applications"
Biosensors & Bioelectronics, 2018, Vol. 112, p. 8-17

[04]
F. Heinrich, M. Riedel, F. Lisdat,
"Detection of abasic DNA by means of impedance spectroscopy",
Electrochemistry Communications, 2018, Vol. 90, p. 65-68

[03]
L.E. Delle, V. Pachauri, A. Vlandas, M. Riedel, B. Lägel, R. Lilischkis, X.T. Vu, P. Wagner, R. Thoelen, F. Lisdat, S. Ingebrandt,
"Scalable fabrication and application of nanoscale IDE-arrays as multi-electrode platform for label-free biosensing",
Sensors and Actuators B, 2018, Vol. 265, p. 115–125

[02]
G. Göbel, A. Talke, F. Lisdat,
"FTO – an Electrode Material for the Stable Electrochemical Determination of Dopamine",
Electroanalysis, 2018,  Vol. 30 (2), p. 225-229

[01]
M. Riedel, F. Lisdat,
"Integration of enzymes in polyaniline-sensitized 3D inverse opal TiO2 architectures for light-driven biocatalysis and light-to-current conversion",
ACS Applied Materials & Interfaces, 2018, Vol. 10 (1), p. 267-277

2016/2017Bereich öffnenBereich schließen

[20]
D. Ciornii, M. Riedel, K. R.  Stieger, S. C. Feifel, M. Hejazi, H. Lokstein, A. Zouni, F. Lisdat,
"Bioelectronic circuit on a 3D electrode architecture: Enzymatic catalysis interconnected with photosystem I",
Journal of the American Chemical Society, 2017, Vol. 139 (46), p. 16478-16481

[19]
F. Lisdat,
"Trends in the Layer-by layer assembly of redox proteins and enzymes in bioelectrochemistry",
Current Opinion in Electrochemistry, Volume 5, Issue 1, 2017, 165-172

[18]
G. Fusco, G. Göbel, R. Zanoni, E. Kornejew, G. Favero, F. Mazzei and Fred Lisdat,
"Polymer-supported electron transfer of PQQ-dependent glucose dehydrogenase at carbon nanotubes modified by electropolymerized polythiophene copolymers",
ELECTROCHIMICA ACTA, 2017, Vol. 248 , p. 64-74

[17]
L. Matuschek, G. Göbel and F. Lisdat,
"Electrochemical detection of Serotonin in the presence of 5-Hydroxyindoleacetic acid and Ascorbic acid by use of 3D ITO electrodes",
Electrochemistry Communications, 2017, Vol. 81, p. 145-149

[16]
D. H. Bay, A. Busch, F. Lisdat, K Iida, K. Ikebukuro, K. Nagasawa, I. Karube and W. Yoshida,
"Identification of G-quadruplex structures that posses transcriptional regulating functions in the Dele and Cdc6 CpG islands",
BMC Molecular Biology, 2017, Vol. 18, No. 17

[15]
M. Riedel, S. Hölzel, P. Hille, J. Schörmann, M. Eickhoff and F. Lisdat,
"InGaN/GaN nanowires as a new platform for photoelectrochemical sensors - detection of NADH",
Biosensors & Bioelectronics, 2017 , Vol. 94, p. 298-304

[14]
D. Ciornii, S. C. Feifel, M. Hejadzi, A. Kölsch, H. Lokstein, A. Zouni  and F. Lisdat,
"Construction of photobiocathodes using multi-walled carbon nanotubes and photosystem I",
Physica Status Solidi A, 2017 , Vol. 214 (9), No. 1700017

[13]
M. Riedel, N. Sabir, F. W. Scheller, W. J. Parak and F. Lisdat,
"Connecting quantum dots with enzymes: Mediator-based approaches for the light-directed read-out of glucose and fructose oxidation",
Nanoscale, 2017 , Vol. 9, p. 2814-2823

[12]
A. Fandrich, J. Buller, H. Memczak, W. Stöcklein, K. Hinrichs, E. Wischerhoff, B. Schulz, A. Laschewsky and F. Lisdat,
"Responsive Polymer-Electrode Interface—Study of its Thermo- and pH-Sensitivity and the Influence of Peptide Coupling",
Electrochimica Acta, 2017 , Vol. 229, p. 325-333

[11]
G. Göbel, M. L. Beltram, J. Mundhenk, T. Heinlein, J. Schneider and F. Lisdat,
"Operation of a carbon nanotube-based glucose/oxygen biofuell cell in human body liquids-Performance factors and characteristics",
Electrochimica Acta 2016, Vol. 208, p. 278-284

[10]
S. C. Feifel, K. R. Stieger, A. Kapp, D. Weber, M. Allegrozzi, M. Piccioli, P. Turano and F. Lisdat,
"Insights into Interprotein Electron Transfer of Human Cytochrome c Variants Arranged in Multilayer Architectures by Means of an Artificial Silica Nanoparticle Matrix",
ACS Omega 2016, Vol. 1, p. 1058-1066

[9]
K. R. Stieger, S. C. Feifel, H. Lokstein, M. Hejazi, A. Zouni and F. Lisdat,
"Biohybrid architectures for efficent light-to-current conversion based on photosytem I within scalable 3D mesoporous electrodes",
J. Mater. Chem. A 2016, Vol. 4, p. 17009-17017

[8]
D. Sarauli, A. Borowski. K. Peters, B. Schulz, D. Fattakhova-Rohlfing, S. Leimkühler and F. Lisdat,
"Investigations of the pH Dependent Impact of Sulfonated Polyaniline on Bioelectrocatalytic Activity of Xanthine Dehydrogenase",
ACS Catalysis 2016, Vol. 6 (10), p. 7152-7159

[7]
D. Molinnus, M. Sorich, A. Bartz, P. Siegert, H. S. Willenberg, F. Lisdat, A. Poghossian, M. Keusgen and M. J. Schöning,
"Towards an adrenaline biosensor based on substrate recycling amplification in combination wit an enzyme logic gate",
Sensors and Actuators B 2016, Vol. 237, p. 190-195

[6]
C. Wettstein, K. Kano, D. Schäfer, U. Wollenberger and F. Lisdat,
"Interaction of Flavin Dependent Fructose Deyhydrogenase with Cytochrome c as Basis for the Construction of Biomacromolecular Architectures on Electrodes",
Analytical Chemistry 2016, Vol. 88, p. 6382-6389

[5]
K. R. Stieger, D. Ciornii, A. Kölsch, M. Hejazi, H. Lokstein, S. C. Feifel, A. Zouni and F. Lisdat,
"Engineering of supramolecular photoactive protein architectures the defined co-assembly of photosystem I and cytochrome c using a nanoscaled DNA-matrix",
Nanoscale 2016, Vol. 8, p. 10695-10705

[4]
D. Stern, D. Pauly, M. Zydek, L. Miller, J. Piesker, M. Laue, F. Lisdat, M. B. Dorner, B. G. Dorner and A. Nitsche,
"Development of a genus-specific antigen ELISA for orthopoxviruses",
PlosOne 2016, Vol. 78, p. 111-117

[3]
J. Gladisch, D. Sarauli, D. Schäfer, B. Dietzel, B. Schulz and F. Lisdat,
"Towards a novel bioelectrocatalytic platform based on “wiring” of pyrroloquinoline quinone-dependent glucose dehydrogenase with an electrospun conductive polymeric fiber architecture",
Scientific Reports 2016, Vol. 6, Article Number: 19585

[2]
G. Göbel, R. Lange, J. M. Hollidt and F. Lisdat,
"Development of a fast and simple test system for semiquantitive protein detection in cerebrospinal liquids based on gold nanoparticles",
Talanta 2016, Vol. 146, p. 49-54

[1]
D. Stern, D. Pauly, M. Zydek, C. Müller, M. A. Avondet, S. Worbs, F. Lisdat, M. Dorner and B. G. Dorner
" Simultaneous differentiation and quantification of ricin and agglutinin by an antibody-sandwich surface plasmon resonance sensor ",
Biosensors & Bioelectronics 2016, Vol. 78, p. 111-117

2014/2015Bereich öffnenBereich schließen

[17]
N. Sabir, N. Khan, J. Völkner, F. Widdascheck, P. del Pino, G. Witte, M. Riedel, F. Lisdat, M. Konrad, W. J. Parak,
"Photo-electrochemical Bioanalysis of Guanosine Monophosphate Using Coupled Enzymatic Reactions at a CdS / ZnS Quantum Dot Electrode",
Small 2015, Vol. 11 (43), p. 5844-5850

[16]
S. C. Feifel, H. Lokstein, M. Hejazi, A. Zouni, F. Lisdat
"Unidirectional Photocurrent of Photosystem I on pi-System-Modified Graphene Electrodes: Nanobionic Approaches for the Construction of Photobiohybrid Systems",
Langmuir 2015, Vol. 31 (38), p. 10590-10598

[15]
A. Fandrich, J. Buller, D. Schäfer, E. Wischerhoff, A. Laschewsky, F. Lisdat
"Electrochemical characterization of a responsive macromolecular interface on gold",
Physica Status Solidi 2015, Vol. 212 (6), p. 1359-1367

[14]
S. C. Feifel, K. R. Stieger, H. Lokstein, H. Lux, F. Lisdat,
"High photocurrent generation by photosystem I on artificial interfaces composed of π-system-modified graphene",
Journal of Materials Chemistry A 2015, Vol. 3 (23), p. 12188-12196

[13]
R. E. McGovern, S. C. Feifel, F. Lisdat, P. B. Crowley,
"Cytochrom-c-Calixaren-Kristalle auf Elektroden: intermolekularer Elektronentransfer zwischen definiert lokalisierten Redoxzentren",
Angewandte Chemie 2015, Vol. (21), p. 6454-6457

[12]
R. E. McGovern, S. C. Feifel, F. Lisdat, P. B. Crowley,
"Microscale Crystals of Cytochrome c and Calixarene on Electrodes: Interprotein Electron Transfer between Defined Sites",
Angewandte Chemie 2015, International Edition 54 (21), p. 6356-6359

[11]
D. Sarauli, C. Wettstein, K. Peters, B. Schulz, D. Fattakhova-Rohlfing, F. Lisdat,
“Interaction of fructose dehydrogenase with a sulfonated polyanilin: Application for enhanced bioelectrocatalysis",
ACS Catalysis 2015, Vol. 5, p. 2081-2087

[10]
J. Tanne, D, Kracher, B. Dietzel, B. Schulz, R. Ludwig, F. Lisdat, F. W. Scheller, F. F. Bier,
"Carboxylated or aminated polyaniline - Multiwalled carbon nanotubes nanohybrids for immobilization of cellobiose dehydrogenase on gold electrodes",
Biosensors 2014, Vol. 4, p. 370-386

[9]
C. Wettstein, C. Kyne, A. Doolan, H. Möhwald, P. B. Crowley, F. Lisdat,
“Study of Cytochrome c–DNA Interaction - Evaluation of Binding Sites on the Redox Protein",
Nanoscale 2014, Vol. 6 (22), p. 13779-13786

[8]
D. Sarauli, K. Peters, C. Xu, B. Schulz, D. Fattakhova-Rohlfing,  F. Lisdat,
“3D-Electrode Architectures for Enhanced Direct Bioelectrocatalysis of Pyrroloquinoline Quinone-Dependent Glucose Dehydrogenase”,
ACS Applied Materials & Interfaces 2014, Vol. 6 (20), p. 17887-17893

[7]
M. Riedel, J. Kartchemnik, M. J. Schöning, F. Lisdat,
“Impedimetric DNA detection - Steps forward to sensorial application",
Analytical Chemistry 2014, 86, p. 7867-7874

[6]
K. Stieger, S. C. Feifel, H. Lokstein, F. Lisdat,
“Advanced unidirectional photocurrent generation via cytochrome c as reaction partner for directed assembly of photosystem I”,
Physical Chemistry Chemical Physics 2014, Vol. 16 (29), p. 15667-15674

[5]
V. Scherbahn, M. T. Putze, B. Dietzel, T. Heinlein, J. J. Schneider, F. Lisdat,
“Biofuel cell based on direct enzyme-electrode contacts using PQQ-dependent glucose dehydrogenase / bilirubin oxidase and modified carbon nanotube materials”,
Biosensors and Bioelectronics 2014, Vol. 61, p. 631-638

[4]
S. C. Feifel, A. Kapp, F. Lisdat,
“Electro-active Nanobiomolecular Architectures of Laccase and Cytochrome c on electrodes - Applying Silica Nanoparticles Artificial Matrix”,
Langmuir 2014, Vol. 30 (19), p. 5363-5367

[3]
D. Sarauli, C. Xu, B. Dietzel, B. Schulz, F. Lisdat,
“Multilayered sulfonated polyaniline network with entrapped pyrroloquinoline quinone-dependent glucose dehydrogenase: tunable direct bioelectrocatalysis”,
Journal of Materials Chemistry B 2014, Vol. 2 (21), p. 3151-3404

[2]
S. C. Feifel, A. Kapp, R. Ludwig, F. Lisdat,
“Nanobiomolecular multiprotein clusters on electrodes for formation of a switchable cascadic reaction scheme”,
Angewandte Chemie 2014, International Edition 53 (22), p. 5676-5679

[1]
S. C. Feifel, A. Kapp, R. Ludwig, F. Lisdat,
“Nanobiomolekulare Multiproteinarchitekturen zur Etablierung von schaltbaren Signalketten auf Elektroden”,
Angewandte Chemie 2014, Vol. 126 (22), p. 5782-5786

2012/2013Bereich öffnenBereich schließen

[18]
D. Sarauli, C. Xu, B. Dietzel, B. Schulz, F. Lisdat,
“Differently substituted sulfonated polyanilines: The role of polymer compositions in the electron transfer with pyrroloquinoline quinone-dependent glucose dehydrogenase”,
Acta Biomaterialia 2013, Vol. 9 (9), p. 8290-8298

[17]
M. Riedel, G. Göbel, A. M. Abdelmonem, W. J. Parak, F. Lisdat,
“Photoelectrochemical Sensor Based on Quantum Dots and Sarcosine Oxidase”,
ChemPhysChem 2013, Vol. 14 (6), p. 2338-2342

[16]
F. Lisdat, D. Schäfer, A. Kapp,
“Quantum dots on electrodes - new tools for bioelectroanalysis”,
Analytical and Bioanalytical Chemistry 405 (2013) 3739-3752

[15]
Z. Yue, F. Lisdat, W. Parak, S. Hickey, L. Tu, N. Sabir, D. Dorfs, N. Bigall,
“Quantum Dot Based Photoelectrochemical Sensors for Chemical and Biological Detection”,
ACS Applied Materials & Interfaces 5 (8) (2013) 2800-2814

[14]
F. Wegerich, A. Giachetti, M. Allegroyyi, F. Lisdat, P. Turano,
“Mechanistic insights in the superoxide - cytochrome c reaction by lysine surface scanning”,
Journal of Biological Inorganic Chemistry 18 (2013) 429-440

[13]
S. C. Feifel, A. Kapp, R. Ludwig, L. Gorton, F. Lisdat,
“Electrocatalytically active multi-protein assemblies using nanoscaled building blocks”,
RSC Advances 3 (2013) 3428-3437

[12]
Ch. Wettstein, H. Möhwald, F. Lisdat,
“Coupling of pyrroloquinoline quinone dependent glucose dehydrogenase to (cytochrome c/DNA)-multilayer systems on electrodes”,
Bioelectrochemistry 88 (2012) 97-102

[11]
D. Sarauli, R. Ludwig, D. Haltrich, L. Gorton, F. Lisdat,
“Investigation of the mediated electron transfer mechanism of cellobiose dehydrogenase at cytochrome c-modified gold electrodes”,
Bioelectrochemistry 87 (2012) 9-14

[10]
I. W. Schubart, G. Göbel, F. Lisdat,
"A pyrroloquinoline quinone-dependent glucose dehydrogenase (PQQ-GDH)-electrode with direct electron transfer based on polyaniline modified carbon nanotubes for biofuel cell application",
Electrochimica Acta 82 (2012) 224-232

[9]
K. Kleo, D. Schäfer, S. Klar, D. Jakob, R. Grunow, F. Lisdat,
"Immunodetection of inactivated Francisella tularensis bacteria by using a quartz crystal microbalance with dissipation monitoring",
Analytical and bioanalytical chemistry 404 (3) (2012) 843-851

[8]
S.C. Feifel, R. Ludwig, L. Gorton, F. Lisdat,,
"Catalytically Active Silica Nanoparticle-Based Supramolecular Architectures of Two Proteins - Cellobiose Dehydrogenase and Cytochrome c on Electrodes",
Langmuir 28 (25) (2012) 9189-9194

[7]
C. Nietzold, F. Lisdat,
"Fast protein detection using absorption properties of gold nanoparticles",
Analyst 137 (12) (2012) 2821-2826

[6]
A. Fandrich, J. Buller, E. Wischerhoff, A. Laschewsky, F. Lisdat,
"Electrochemical Detection of the Thermally Induced Phase Transition of a Thin Stimuli-Responsive Polymer Film",
ChemPhysChem 13 (8) (2012) 2020-2023

[5]
C. Förster, M. Zydek, M. Rothkegel, ZY. Wu, C. Gallin, R. Gessner, F. Lisdat, J. P. Fürste,
"Properties of an 'LNA'-modified ricin RNA aptamer",
Biochemical and Biophysical Research Communications 419 (1) (2012) 60-65

[4]
D. Sarauli, C. Xu, B. Dietzel, K. Stiba, S. Leimkühler, B. Schulz, F. Lisdat,
"Thin films of substituted polyanilines: interactions with biomolecular systems",
Soft Matter 8 (2012) 3848-3855

[3]
M. Kaatz, H. Schulze, I, Ciani, F. Lisdat, A.R. Mount, T.T. Bachmann,
"Alkaline phosphatase enzymatic signal amplification for fast sensitive impedimetric DNA detection",
Analyst 137 (1) (2011) 59-63

[2]
D. Sarauli, M. Riedel, C. Wettstein, R. Hahn, K. Stiba, U. Wollenberger, S. Leimkühler, P. Schmuki, F. Lisdat,
"Semimetallic TiO2 nanotubes: new interfaces for bioelectrochemical enzymatic catalysis",
Journal of Materials Chemistry 22 (2012) 4615-4618

[1]
C. Schlachter, F. Lisdat, M. Frohme, V.A. Erdmann, Z. Konthur, H. Lehrach, J. Glökler,
"Pushing the detection limits: the evanescent field in surface plasmon resonance and analyte-induced folding observation of long human telomeric repeats",
Biosensors and Bioelectronics 31 (2012) 571-574

2010/2011Bereich öffnenBereich schließen

[18]
S.C. Feifel, F. Lisdat,
"Silica Nanoparticles for the Layer-by-Layer Assembly of Fully Electro-active Cytochrome c Multylayer",
Journal of Nanobiotechnology (2011) 9:59

[17]
W. Khalid, M. El Helou, T. Murbock, Z. Yue, J.M. Montenegro, K. Schubert, G. Göbel, F. Lisdat, G. Witte, W.J. Parak,
"Immobilization of Quantum Dots via Conjugated Self-Assembled Monolayers and Their Application as a Light-Controlled Sensor for the Detection of Hydrogen Peroxide",
ACS Nano 5 (12) (2011) 9870-9876

[16]
W. Khalid, G. Göbel, D. Huhn, J.M. Montenegro, P.R. Gil, F. Lisdat, W.J. Parak,
“Light triggered detection of aminophenyl phosphate with a quantum dot based enzyme electrode",
Journal of Nanobiotechnology (2011) 9:46

[15]
J. Tanne, D. Schäfer, W. Khalid, W. J. Parak, F. Lisdat,
“Light-Controlled Bioelectrochemical Sensor Based on CdSe/ZnS Quantum Dots",
Analytical Chemistry 83 (20) (2011) 7778–7785

[14]
G. Göbel, I.W. Schubart, V. Scherbahn, F. Lisdat,
“Direct electron transfer of PQQ-glucose dehydrogenase at modifed carbon nanotubes electrodes”,
Electrochemistry Communications 13 (2011) 1240-1243

[13]
K. Kleo, A. Kapp, L. Ascher, F. Lisdat,
“Detection of vaccinia virus DNA by quartz crystal microbalance”,
Analytical Biochemistry 418 (2) (2011) 260-266

[12]
C. Tersch, F. Lisdat,
“Label-free detection of protein-DNA interactions using electrochemical impedance spectroscopy”,
Electrochimica Acta 56 (22) (2011) 7673-7679

[11]
G. Göbel, K. Schubert, I. W. Schubart, W. Khalid, W. J. Parak, F. Lisdat,
“Enhanced photocurrent generation with quantum dots containing multilayers on gold”,
Electrochimica Acta 56 (18) (2011) 6397-6400

[10]
C. Kepplinger, F. Lisdat, U. Wollenberger,
“Cytochrome c / polyelectrolyte multilayer investigated by E-QCM-D: Effect of temperature on the assembly structure”,
Langmuir 27 (13) (2011) 8309-8315

[9]
F. Wegerich, P. Turano, M. Allegrozzi, H. Möhwald, F. Lisdat,
“Electroactive Multilayer Assemblies of Bilirubin Oxidase and Human Cytochrome C Mutants: Insight in Formation and Kinetic Behavior”,
Langmuir 27 (7) (2011) 4202-4211

[8]
C. Witte, F. Lisdat,
“Direct detection of DNA and DNA-Ligand interaction by impedance spectroscopy”,
Electroanalysis 23 (2) (2011) 339-346

[7]
C. Tanne, G. Göbel, F. Lisdat,
“Development of a (PQQ)-GDH-anode based on MWCNT-modified gold and its application in a glucose/O2-biofuel cell”,
Biosensors and Bioelectronics 26 (2010) 530-535 

[6]
D.Sarauli, J. Tanne, C. Xu, B. Schulz, L. Trnkova, F. Lisdat,
“Insights into the formation and operation of polyaniline sulfonate/cytochrome c multilayer electrodes: contributions of polyelectrolytes´properties”,
Physical Chemistry Chemical Physics  12 (42) (2010) 14271-14277

[5]
G. Göbel, T.Dietz, F. Lisdat,
“Bienzyme sensor based on an oxygen reducing bilirubin oxidase electrode”,
Electroanalysis 22 (14) (2010) 1581-1585 

[4]
S. Bütow, F. Lisdat,
“Parallel detection of different DNA sequences on one gold electrode”,
Electroanalysis 22 (9) (2010) 931-937 

[3]
M. Birkholz, K.-E. Ehwald, D. Wolansky, I. Costina, C. Baristiran-Kaynak, M. Fröhlich, H. Beyer, A. Kapp, F. Lisdat,
“Corrosion-resistant metal layers from a CMOS process for bioelectronic applications”,
Surface and Coatings Technology 204 (12-13) (2010) 2055-2059

[2]
Z. Yue, W. Khalid, M. Zanella, A.Z. Abbasi, A. Pfreundt, P.R. Gil, K. Schubert, F. Lisdat, W.J. Parak,
“Evaluation of quantum dots applied as switchable layer in a light-controlled electrochemical sensor”
Analytical and Bioanalytical Chemistry 396 (3) (2010) 1095-1103

[1]
K. Schubert, W. Khalid, Z. Yue, W. Parak, F. Lisdat,
"Quantum Dot-Modified Electrode in Combination with NADH-Dependent Dehydrogenase Reactions for Substrate Analysis",
Langmuir 26 (2) (2010) 1395-1400

2008/2009Bereich öffnenBereich schließen

[21]
G. Göbel, T. Dietz, F. Lisdat,
"Bienzymsensor basierend auf direkter Bilirubinoxidase-Elektroden-Kopplung",
Dresdner Beiträge zur Sensorik 39 (2009) 169-172

[20]
D. Sarauli; J. Tanne; D. Schäfer; I. W. Schubart; F. Lisdat,
“Multilayer Electrodes: Fully Electroactive Cyt c on Gold as a Part of a DNA/protein Architecture”,
Electrochemistry Communications 11 (12) (2009) 2288-2291

[19]
S. Bonk, F. Lisdat,
“Layer-by-Layer Assembly of Electro-active Gold-Nanoparticle/Cytochrome C Multilayers”,
Biosensors and Bioelectronics 25 (4) (2009) 739-744

[18]
S. Kammer, A. Kelling, H. Baier, W. Mickler, C. Dosche, K. Rurack, A. Kapp, F. Lisdat, H.-J. Holdt,
"2,11-dialkylated 1,12-diazaperylene copper(I) complexes: first supramolecular column assemblies by pi-pi stacking between homoleptic tetrahedral metal complexes, exhibiting low-energy MLCT transitions",
European Journal of Inorganic Chemistry 31 (2009) 4648-4659

[17]
K. Schubert, G. Göbel, F. Lisdat,
“Bilirubin oxidase bound to multi-walled carbon nanotube-modified gold”,
Electrochimica Acta 54 (11) (2009) 3033-3038

[16]
F. Wegerich, P. Turano, M. Allegrozzi, H. Möhwald, F. Lisdat,
“Cytochrom c mutants for superoxide biosensors”,
Analytical Chemistry 81 (8) (2009) 2976-2984

[15]
F. Lisdat, R. Dronov, H. Möhwald, F.W. Scheller, D.G. Kurth,
“Self-assembly of electro-active protein architectures on electrodes for the construction of biomimetic single chains”,
Chemical Communications 3 (2009) 274-283

[14]
R. Spricigo, R. Dronov, F. Lisdat, S. Leimkühler, F.W. Scheller, U. Wollenberger,
“Electrocatalytic sulfite biosensor with human sulfite oxidase co-immobilized with cytochrome c in a polyelectrolyte-containing multilayer“,
Analytical and Bioanalytical Chemistry 393 (1) (2009) 225-233

[13]
T. Balkenhohl, O. Pänke, J. Kafka, F. Lisdat,
“Impedanzspektroskopie in der Nukleinsäure- und Immunanalytik”,
VDI Berichte 2011 - Sensor und Messsysteme 2008, Herrausgeber: VDI Wissensforum GmbH, 299-306, VDI Verlag GmbH, Düsseldorf (2008)

[12]
G. Göbel, F. Lisdat,
“Organic interlayers for oxygen reducing electrodes based on bilirubin oxidase and MWCNT modified gold”,
Electrochemistry Communications 10 (11) (2008) 1691-1694

[11]
K. Uhlig, M.S. Jaeger, F. Lisdat, C. Duschl,
“A Biohybrid Microfluidic Valve Based on Forisome Protein Complexes”,
Journal of Microelectromechanical Systems 17 (6) (2008) 1322-1328

[10]
G.B. Salieb-Beugelaar, J. Teapal, J. van Nieuwkasteele, D. Wijnperle, J. O. Tegenfeldt, F. Lisdat, A. van den Berg, J.C.T. Eijkel,
“Field-dependent DNA mobility in 20 nm high nanoslits”,
Nano Letters 8 (7) (2008) 1785-1790

[9]
F. Lisdat, D. Schäfer,
”The use of electrochemical impedance spectroscopy for biosensing”,
Analytical and Bioanalytical Chemistry 391 (5) (2008) 1555-1567

[8]
C. Stoll, C. Gehring, K. Schubert, M. Zanella, W.J. Parak, F. Lisdat,
”Photoelectrochemical signal chain based on quantum dots on gold – sensitive to superoxide radicals in solution”,
Biosensors and Bioelectronics 24 (2008) 260-265

[7]
R.V. Dronov, D.G. Kurth, H. Möhwald, F.W. Scheller, J. Friedmann, D. Pum, U.B. Sleytr, F. Lisdat,
Self-Assembly of S-layer-Enveloped Cytochrome c Polyelectrolyte Multilayer”,
Langmuir 24 (16) (2008) 8779-8784

[6]
Th. Balkenhohl, S. Adelt, R. Dronov, F. Lisdat,
”Oxygen-reducing electrodes based on layer-by-layer assemblies of cytochrome c and laccase”,
Electrochemistry Communications 10 (6) (2008) 914-917

[5]
R. Spricigo, R. Dronov, K.V. Rajagopalan, F. Lisdat, S. Leimkühler, F.W. Scheller, U. Wollenberger,
“Electrocatalytically functional multilayer assembly of sulfite oxidase and cytochrome c“,
Soft Matter 4 (5) (2008) 972-978

[4]
S.C. Jaehrig, S. Rohn, L.W. Kroh, F.X. Wildenauer, F. Lisdat, L.-G. Fleischer, T. Kurz,
“Antioxidative activity of (1→3), (1→6)-β-d-glucan from Saccharomyces cerevisiae grown on different media”,
LWT-Food Science and Technology 41 (5) (2008) 868-877

[3]
J. Kafka, O. Pänke, B. Abendroth, F. Lisdat,
“A label-free DNA sensor based on impedance spectroscopy”,
Electrochimica Acta 53 (25) (2008) 7467-7474

[2]
R.V. Dronov, D.G. Kurth, H. Möhwald, R. Spricigo, S. Leimkühler, U. Wollenberger, K.V. Rajagopalan, F.W. Scheller, F. Lisdat,
“Layer-by-Layer Arrangement by Protein-Protein Interaction of Sulfite Oxidase and Cytochrome c Catalyzing Oxidation of Sulfite”,
Journal of the American Chemical Society 130 (4) (2008) 1122-1123

[1]
R.V. Dronov, D.G. Kurth, H. Möhwald, F.W. Scheller, F. Lisdat,
“Communication in a Protein Stack: Electron Transfer between Cytochrome c and Bilirubin Oxidase within a Polyelectrolyte Multilayer”,
Angew. Chem. Int. Ed. 47 (16) (2008) 3000-3003

2006/2007Bereich öffnenBereich schließen

[15]
M.Ch. Weigel, E. Tritscher, F. Lisdat,
“Direct electrochemical conversion of bilirubin oxidase at carbon nanotube-modified glassy carbon electrodes”,
Electrochemistry Communications 9 (2007) 689-693.

[14]
O. Pänke, A. Kirbs, F. Lisdat,
“Voltammetric Detection of Single-Base Pair Mismatches and Quantification of label-free Target ssDNA using a Competitive Binding Assay”,
Biosensors Bioelectronics 22 (2007) 2656-2662.

[13]
T. Balkenhohl, F. Lisdat,
“An impedimetric immunosensor for the detection of autoantibodies directed against gliadins”,
Analyst 132 (4) (2007) 314-322.

[12]
A.V. Krylov, F. Lisdat,
“Nickel Hexacyanoferrate-Based Sensor Electrode for the Detection of Nitric Oxide at Low Potentials”,
Electroanalysis 19 (1) (2007) 23-29.

[11]
A.V. Krylov, R. Szech, F. Lisdat,
“Characterization of antioxidants using a fluidic chip in aqueous/organic media”,
The Analyst, 132 (2007) 2, 135-141.

[10]
R.V. Dronov, D.G. Kurth, F.W. Scheller, F. Lisdat,
“Direct and Cytochrome c  Mediated Electrochemistry of Bilirubin Oxidase on Gold”
Electroanalysis 19 (15) (2007) 1642-1646.

[9]
T. Balkenhohl, F. Lisdat,
“Screen-printed electrodes as impedimetric immunosensors for the detection of anti-transglutaminase antibodies in human sera”,
Analytica Chimica Acta 597 (2007) 50-57.

[8]
J. Grochol, R.V. Dronov, F. Lisdat, P. Hildebrandt, D.H. Murgida,
“Electron transfer in SAM/Cytochrome/Polyelectrolyte hybrid systems on electrodes: A time-resolved surface-enhanced resonance Raman study”,
Langmuir 23 (22) (2007) 11289-11294.

[7]
R.V. Dronov, D.G. Kurth, H. Möhwald, F.W. Scheller, F. Lisdat,
“A self-assembled cytochrome c/xanthine oxidase multilayer arrangement on gold”,
Electrochimica Acta 53 (3) (2007) 1107-1113.

[6]
F. Stoffels, F. Lohöfener, M.K. Beissenhirtz, F. Lisdat, R. Büttemeyer,
“Concentration decrease of nitric oxide in the postischemic muscle is not only caused by the generation of O2(-)“,
Microsurgery 27 (6) (2007) 565-568.

[5]
A.V. Krylov, H. Adamzig, A. Walter, B. Löchel, E. Kurth, O. Pulz, J. Szeponik, F. Wegerich, F. Lisdat,
“Parallel generation and detection of superoxide and hydrogen peroxide in a fluidic chip“,
Sensors & Actuators 119 (1) (2006) 118-126.

[4]
M.K. Beissenhirtz, F.W. Scheller, M.S. Viezzoli, F. Lisdat,
“Engineering Superoxide Dismutase Monomers for Superoxide Biosensor Applications”,
Analytical Chemistry 78 (3) (2006) 928-935.

[3]
Ch. Stoll, S. Kudera, W.J. Parak, F. Lisdat,
“Quantum Dots on Gold: Electrodes For a Photo-Switchable Cytochrome C Electrochemistry”,
SMALL 2 (6) (2006) 741-743).

[2]
E. Katz, M. Zayats, I. Willner, F. Lisdat,
“Controlling the direction of photocurrents by means of CdS nanoparticles and cytochrome c-mediated biocatalytic cascades”,
Chemical Communications 13 (2006) 1395-1397.

[1]
A. Kapp, M.K. Beissenhirtz, F. Geyer, F. Scheller, M.S. Viezzoli, F. Lisdat,
“Electrochemical and Sensorial Behavior of SOD Mutants Immobilized on Gold Electrodes in Aqueous/Organic Solvent Mixtures”,
Electroanalysis 18 (2006) 19-20, 1909–1915.

2004/2005Bereich öffnenBereich schließen

[7]
M.K. Beissenhirtz, J. Kafka, D. Schäfer, M. Wolny, F. Lisdat,
“Electrochemical quartz crystal microbalance studies on cytochrome c/polyelectrolyte multilayer assemblies on gold electrodes“,
Electroanalysis 17 (21) (2005) 1931-1937.

[6]
S. Kröning, F.W. Scheller, U. Wollenberger, F. Lisdat,
“Myoglobin-clay electrode for nitric oxide (NO) detection in solution“,
Electroanalysis 16 (4) (2004) 253-259.

[5]
A.V. Krylov, W. Pfeil, F. Lisdat,
“Denaturation and renaturation of cytochrome c immobilized on gold electrodes in DMSO-containing buffers”,
Journal of Electroanalytical Chemistry 569 (2) (2004) 225-231.

[4]
A.V. Krylov, M.K. Beissenhitz, H. Adamzig, F. Lisdat,
“Thick film electrodes for the measurement of superoxide and hydrogen peroxide based on direct protein – electrode contacts”,
Journal of Analyt. and Bioanalyt. Chemistry 378 (2004) 1327-30.

[3]
M.K. Beissenhirtz, R.C.H. Kwan, K.M. Ko, R. Renneberg, F.W. Scheller, F. Lisdat,
“Comparing an In vitro Electrochemical Measurement of Superoxide Scavenging Activity with an In vivo Assessment of Antioxidant Potential in Chinese Tonifying Herbs“,
Phytotherapy Research 18 (2004) 149-153.

[2]
M.K. Beissenhirtz, F.W. Scheller, W.F.M. Stöcklein, D.G. Kurth, H. Möhwald, F. Lisdat,
“Electroactive cytochrome c multilayers within a polyelectrolyte assembly“,
Angewandte Chemie - International Edition 43 (33) (2004) 4357-4360.

[1]
M.K. Beissenhirtz, F.W. Scheller, F. Lisdat,
“A superoxide sensor based on a multilayer cytochrome c electrode“,
Analytical Chemistry 76 (16) (2004) 4665-4671.

2002/2003Bereich öffnenBereich schließen

[8]
R. Büttemeyer, A.W. Philipp, L. Schlenzka, J.W. Mall, M. Beissenhirtz, F. Lisdat,
“Epigallocatechin gallate can significantly decrease free oxygen radicals in the reperfusion injury in vivo”,
Transplantation Proceedings 35 (8) (2003) 3116-3120.

[7]
B. Ge, F.W. Scheller, F. Lisdat,
“Electrochemistry of immobilized CuZnSOD and FeSOD and their interaction with superoxide radicals”,
Biosensors & Bioelectronics 18 (2003) 295-302.

[6]
M. Beissenhirtz, B. Ge, F.W. Scheller, F. Lisdat,
“Immobilized cytochrome c sensor in organic/aqueous media for the
characterization of hydrophilic and hydrophobic antioxidants“,
Electroanalysis 15 (18) (2003) 1425-35.

[5]
F. Lisdat, I. Karube,
“Copper proteins immobilised on gold electrodes for (bio)analytical studies“,
Biosensors & Bioelectronics 17 (2002) 1051-1057.

[4]
H. Ju, S. Liu, B. Ge, F. Lisdat, F.W. Scheller,
“Electrochemistry of Cytochrome c immobilized on Colloidal Gold Modified Carbon Paste Electrodes and its Electrocatalytical Activity”,
Electroanalysis 14 (2) (2002) 141-147.

[3]
S. Ignatov, D. Shishniashvili, B. Ge, F.W. Scheller, F. Lisdat,
“Amperometric biosensor based on a functionalized gold electrode for detection of antioxidants”,
Biosensors & Bioelectronics 17 (2002) 191-99.

[2]
B. Ge, F. Lisdat,
“Superoxide sensor based on cytochrome c immobilized on mixed thiol SAM with a new calibration method“,
Analytica Chimica Acta 454 (2002) 53-64.

[1]
R. Büttemeyer, A.W. Philipp, J.W. Mall, B. Ge, F.W. Scheller, F. Lisdat,
“In vivo measurement of oxygen derived free radicals during reperfusion injury”,
Microsurgery 22 (2002) 108-13.

2000/2001Bereich öffnenBereich schließen

[7]
F. Lisdat, B. Ge, M.E. Meyerhoff, F.W. Scheller,
“Signal chains with cytochromes at SAM modified gold electrodes“,
Probe Microscopy 2 (2) (2001) 113-120.

[6]
F. Lisdat, B. Ge, B. Krause, A. Ehrlich, H. Bienert, F.W. Scheller,
“Nucleic acid promoted electron transfer to cytochrome c“,
Electroanalysis 13 (15) (2001) 1225-30.

[5]
F. Lisdat, D. Utepbergenov, R. Haseloff, I. Blasig, W. Stöcklein, F.W. Scheller, R. Brigelius-Flohe,
“An optical method for the detection of oxidative stress using protein - RNA interaction“,
Analytical Chemistry 73 (2001) 957-62.

[4]
V. Fridman, U. Wollenberger, V. Bogdanowskaya, F. Lisdat, T. Ruzgas, A. Lindgren, L. Gorton, F.W. Scheller,
“Electrochemical Investigation of Cellobiose Oxidation by Cellobiose Dehydrogenase in Presence of Cytochrome c as Mediator“,
Biochemical Society Transactions 28 (2) (2000) 63.

[3]
B. Ge, T. Meyer, M.J. Schöning, U. Wollenberger, F. Lisdat,
“Cytochrome c (prime) from Chromatium vinosum on gold electrodes“,
Electrochemistry Communications 2 (2000) 557-61.

[2]
J. Chen, U. Wollenberger, F. Lisdat, B. Ge, F.W. Scheller,
“Superoxide Sensor Based on Hemin Modified Electrode“,
Sensors & Actuators B70 (2000) 115-120.

[1]
F. Lisdat, B. Ge, W. Stöcklein, F.W. Scheller, T. Meyer,
“Electrochemical Behaviour and Nitric Oxide Interaction of Immobilised Cytochrome c' (prime) from Rhodocyclus gelatinosus“,
Electroanalysis 12 (12) (2000) 946-51.

1996-1999Bereich öffnenBereich schließen

[12]
F. Lisdat, B. Ge, E. Ehrentreich-Förster, F.W. Scheller,
“Superoxide dismutase activity measurement using cytochrome c modified electrode“,
Analytical Chemistry 71 (1999) 1359.

[11]
W. Scheller, E. Ehrentreich-Förster, J. Wen, U. Wollenberger, F. Lisdat, F.W. Scheller,
“Cytochrome c based superoxide sensor for in vivo application“,
Electroanalysis 11 (10-11) (1999) 703.

[10]
F. Lisdat, B. Ge, R. Reszka, E. Kozniewska,
“An electrochemical method for the quantification of the radical scavenging activity of SOD“,
Fresenius J. of Analytical Chemistry 365 (1999) 494.

[9]
E. Kozniewska, R. Reszka, F. Lisdat,
“Superoxide dismutase protects cerebral microcirculation against focal cerebral ischemia/reperfusion“,
J. of Cerebral Blood Flow and Metabolism 19 (1999) 740.

[8]
F. Lisdat, B. Ge, F.W. Scheller,
“Oligonucleotide-modified electrodes for fast electron transfer to cytochrome c“,
Electrochemistry Communications 1 (1999) 65.

[7]
Ch. Lei, F. Lisdat, U. Wollenberger, F.W. Scheller,
“Cytochrome c/Clay -modified Electrode“,
Electroanalysis 11 (4) (1999) 274.

[6]
F. Lisdat, U. Wollenberger, M. Paeschke, F.W. Scheller,
“Sensitive catecholamine measurement using a monoenzymatic recycling system“,
Analytica Chimica Acta 368 (1998) 233-241.

[5]
F. Lisdat, U. Wollenberger,
“Trienzymatic amplification system for the detection of catechol and catecholamines using internal co-substrate regeneration“,
Analytical Letters 31 (8) (1998) 1275-85.

[4]
F. Lisdat, W.O. Ho, U. Wollenberger, U. Bilitewski, F.W. Scheller,
“Recycling systems based on screen-printed electrodes“,
Electroanalysis 10 (12) (1998) 803.

[3]
J. Szeponik, B. Möller, D. Pfeiffer, F.Lisdat, U. Wollenberger, A. Makower, F. Scheller,
“Ultrasensitive Bienzyme Electrode for Adrenaline“,
Biosensors & Bioelectronics 12 (9-10) (1997) 947.

[2]
F. Lisdat, U. Wollenberger, A. Makower, H. Hörtnagel, D. Pfeiffer, F.W. Scheller,
“Catecholamine detection using enzymatic amplification“,
Biosensors & Bioelectronics 12 (12) (1997) 1199-1211.

[1]
F. Lisdat, N. Miura, N. Yamazoe,
“NASICON-Based Solid Electrolyte Cell as Transducer for Enzyme Sensors“,
Sensors and Actuators B30 (1996) 195-200.

1990-1995Bereich öffnenBereich schließen

[10]
F. Lisdat, W. Moritz,
“Investigation of Polymer Membranes for Diffusion Restriction in Miniaturised Reference Sensors“,
Thin Solid Films 248 (1994) 126-133.

[9]
F. Lisdat, A. Yamada, N. Miura, N. Yamazoe,
“Glucose Sensor Based on a Solid Electrolyte Cell Using Sodium Ion Conductor“,
Chemical Letters (1994) 1173-76.

[8]
F. Lisdat, N. Miura, N. Yamazoe,
"Flow-Through-Measurements for Glucose Detection Using All-Solid-State Electrochemical Cells",
Chemical Letters (1994) 1737-40.

[7]
F. Lisdat, W. Moritz,
“A Reference Element based on a Solid-state Structure“,
Sensors and Actuators B15 (1993) 228-232.

[6]
W. Moritz, F. Lisdat, B.H. van der Schoot, N.F. de Rooij, H.H. van den Vlekkert, H.C.G. Ligtenberg, I. Grohmann,
“Flow Injection Analysis Using pH/pF ISFET Combinations for Determination of Very Low Fluoride Concentrations“,
Sensors and Actuators B15 (1993) 223-227.

[5]
A. Friebe, F. Lisdat, W. Moritz,
“Polymer Membranes on Chemical Semiconductor Devices - Their Electrical Influence on Sensor Characterization“,
Sensors and Materials 5 (2) (1993) 65-81.

[4]
W. Moritz, J. Szeponik, F. Lisdat, A. Friebe, S. Krause,
“Diversiform application of LaF3 for chemical semiconductor sensors“,
Sensors and Actuators B7 (1992) 497-500.

[3]
A.W. Bratov, N.W. Roschdestwenskaja, S.S. Lewischev, F. Lisdat,
“Ion-selective field effect transistor - sensitive for potassium ion in solution“,
J. Priklad. Chimii 63 (10) (1990) 2203.

[2]
F. Lisdat, W. Moritz, L. Müller,
“Referenzelektroden für wässrige und geschmolzene Systeme“,
Zeitschrift für Chemie 12 (1990) 427.

[1]
F. Lisdat, W. Moritz, J. Szeponik, A. Nünchert, L. Müller,
“Referenzelektrode für elektrochemische Messungen“,
DD-Pat. 280826 G01 N27/30.