Biomedical Engineering Reference
In-Depth Information
34. M. Barbaro, A. Bonfi glio, L. Raffo, A. Alessandrini, P. Facci, and I. Barak, A SMOS fully integrated
sensor for electronic detection of DNA hybridization.
IEEE Electron Device Lett
.
27
, 595-597 (2006).
35. M. Barbaro, A. Bonfi glio, and L. Raffo, A charge-modulated FET for detection of biomolecular proc-
esses: conception, modelling, and simulation.
IEEE Trans. Electron Devices
53
, 158-166 (2006).
36. P. Estrela, A.G. Stewart, F. Yan, and P. Migliorato, Field effect detection of biomolecular interactions.
Electrochim. Acta
50
, 4995-5000 (2005).
37. F. Wei, B. Sun, Y. Guo, and X.S. Zhao, Monitoring DNA hybridization on alkyl modifi ed silicon surface
through capacitance measurement.
Biosens. Bioelectron
18
, 1157-1163 (2003).
38. H. Berney, J. West, E. Haefele, J. Alderman, W. Lane, and J.K. Collins, A DNA diagnostic biosensor:
development, characterisation and performance.
Sens. Actuators B
68
, 100-108 (2000).
39. S.Q. Lud, M.G.. Nikolaides, I. Haase, M. Fischer, and A.R. Bausch, Field effect of screened charges:
electrical detection of peptides and proteins by a thin-fi lm resistor.
ChemPhysChem
.
7
, 379-384 (2006).
40. M.G. Nikolaides, S. Rauschenbach, S. Luber, K. Buchholz, M. Tornow, G. Abstreiter, and
A.R. Bausch, Silicon-on-insulator based thin-fi lm resistor for chemical and biological sensor applica-
tions.
ChemPhysChem
.
4
, 1104-1106 (2003).
41. P.A. Neff, A. Naji, C. Ecker, B. Nickel, R. Klitzing, and A.R. Bausch, Electrical detection of self-assem-
bled polyelectrolyte multilayers by a thin fi lm resistor.
Macromolecules
39
, 463-466 (2006).
42. P. Estrela, P. Migliorato, H. Takiguchi, H. Fukushima, and S. Nebashi, Electrical detection of biomo-
lecular interactions with metal-insulator-semiconductor diodes.
Biosens. Bioelectron
.
20
, 1580-1586
(2005).
43. J. Fritz, E.B. Cooper, S. Gaudet, P.K. Sorger, and S.R. Manalis, Electronic detection of DNA by its
intrinsic molecular charge.
PNAS
99
, 14 142-14 146 (2002).
44. J.P. Cloarec, N. Deligianis, J.R. Martin, I. Lawrence, E. Souteyrand, C. Polychronakos, and
M.F. Lawrence, Immobilisation of homooligonucleotide probe layers onto Si/SiO
2
substrates: charac-
terisation by electrochemical impedance measurements and radiolabelling.
Biosens. Bioelectron
.
17
,
405-412 (2002).
45. T. Sakata and Y. Miyahara, Detection of DNA recognition events using multi-well fi eld effect devices.
Biosens. Bioelectron
.
21
, 827-832 (2005).
46. M.J. Schöning, M.H. Abouzar, Y. Han, S. Ingebrandt, A. Offenhäusser, and A. Poghossian,
Markierungsfreie DNA-Detektion mit Silizium-Feldeffektsensoren-Messeffekte oder Artefakte? in
Sensoren und Messsysteme
, pp. 443-446. Berlin, VDE Verlag (2006).
47. A. Poghossian, M.H. Abouzar, F. Amberger, D. Mayer, Y. Han, S. Ingebrandt, A. Offenhäuser, and
M.J. Schöning, Field-effect sensors with charged macromolecules: characterisation by capacitance-volt-
age, constant capacitance, impedance spectroscopy and atomic-force microscopy methods.
Biosens.
Bioelectron
.
22
, 2100-2107 (2007).
48. T. Kassab, Y. Han, A. Poghossian, S. Ingebrandt, A. Offenhäuser, and M.J. Schöning, Detection of
layer-by-layer adsorbed polyelectrolytes by means of fi eld-effect-based capacitive EIS structures.
Biomedizinische Technik
49
, 1034-1035 (2004).
49. M.J. Schöning, M.H. Abouzar, S. Ingebrandt, J. Platen, A. Offenhäuser, and A. Poghossian, Towards label-
free detection of charged macromolecules using fi eld-effect-based structures: scaling down from capacitive
EIS sensor over ISFET to nano-scale devices, in
Mater. Res. Soc. Symp. Proc
.
915
, 0915-R05-04 (2006).
50. A. Poghossian, M.H. Abouzar, M. Sakkari, T. Kassab, Y. Han, S. Ingebrandt, A. Offenhäuser, and
M.J. Schöning, Field-effect sensors for monitoring the layer-by-layer adsorption of charged macromol-
ecules.
Sens. Actuators B
118
, 163-170 (2006).
51. A. Poghossian, A. Cherstvy, S. Ingebrandt, A. Offenhäuser, and M.J. Schöning, Possibilities and limita-
tions of label-free detection of DANN hybridisation with fi eld-effect-based devices.
Sens. Actuators B
111
, 470-480 (2005).
52. D. Landheer, G. Aers, W.R. Mckinnon, M.J. Deen, and J.C. Ranuarez, Model for the fi eld effect from
layers of biological macromolecules on the gates of metal-oxide-semiconductor transistors.
J. Appl.
Phys
.
98
, 044701-1-15 (2005).
53. L.J. Bousse, N.F. de Rooij, and P. Bergveld, Operation of chemically sensitive fi eld-effect sensors as a
function of the insulator-electrolyte interface.
IEEE Trans. Electron Dev
.
30
, 1263-1270 (1983).
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