INVESTIGADORES
PONCE miguel Adolfo
artículos
Título:
Impedance spectroscopy analysis of SnO2 thick-films gas sensors
Autor/es:
M.A. PONCE, P.R. BUENO, J. VARELA, M.S. CASTRO, Y C.M. ALDAO
Revista:
JOURNAL OF MATERIALS SCIENCE-MATERIALS IN ELECTRONICS
Editorial:
Springer
Referencias:
Año: 2008 vol. 19 p. 1169 - 1175
ISSN:
0957-4522
Resumen:
Abstract A careful analysis of the impedance response of
SnO2 thick films under vacuum and air atmosphere is
reported in the present work. The AC electrical resistance
was analyzed and it was shown that it is highly frequency
dependent. Different models and its equivalent circuit
representation were proposed and carefully analyzed based
on the microstructure features of the device. Basically, an
interpretation of the frequency dependent resistance was
proposed based on the fact that different grains characteristics
and junctions exist. These different grains and
junctions are the main source of resistance dependent
feature. An equivalent circuit model, considering different
grain sizes associated with different grain boundary junctions
characteristics, was introduced so that a consistent
interpretation of the results was possible.
reported in the present work. The AC electrical resistance
was analyzed and it was shown that it is highly frequency
dependent. Different models and its equivalent circuit
representation were proposed and carefully analyzed based
on the microstructure features of the device. Basically, an
interpretation of the frequency dependent resistance was
proposed based on the fact that different grains characteristics
and junctions exist. These different grains and
junctions are the main source of resistance dependent
feature. An equivalent circuit model, considering different
grain sizes associated with different grain boundary junctions
characteristics, was introduced so that a consistent
interpretation of the results was possible.
SnO2 thick films under vacuum and air atmosphere is
reported in the present work. The AC electrical resistance
was analyzed and it was shown that it is highly frequency
dependent. Different models and its equivalent circuit
representation were proposed and carefully analyzed based
on the microstructure features of the device. Basically, an
interpretation of the frequency dependent resistance was
proposed based on the fact that different grains characteristics
and junctions exist. These different grains and
junctions are the main source of resistance dependent
feature. An equivalent circuit model, considering different
grain sizes associated with different grain boundary junctions
characteristics, was introduced so that a consistent
interpretation of the results was possible.
reported in the present work. The AC electrical resistance
was analyzed and it was shown that it is highly frequency
dependent. Different models and its equivalent circuit
representation were proposed and carefully analyzed based
on the microstructure features of the device. Basically, an
interpretation of the frequency dependent resistance was
proposed based on the fact that different grains characteristics
and junctions exist. These different grains and
junctions are the main source of resistance dependent
feature. An equivalent circuit model, considering different
grain sizes associated with different grain boundary junctions
characteristics, was introduced so that a consistent
interpretation of the results was possible.
A careful analysis of the impedance response of
SnO2 thick films under vacuum and air atmosphere is
reported in the present work. The AC electrical resistance
was analyzed and it was shown that it is highly frequency
dependent. Different models and its equivalent circuit
representation were proposed and carefully analyzed based
on the microstructure features of the device. Basically, an
interpretation of the frequency dependent resistance was
proposed based on the fact that different grains characteristics
and junctions exist. These different grains and
junctions are the main source of resistance dependent
feature. An equivalent circuit model, considering different
grain sizes associated with different grain boundary junctions
characteristics, was introduced so that a consistent
interpretation of the results was possible.
reported in the present work. The AC electrical resistance
was analyzed and it was shown that it is highly frequency
dependent. Different models and its equivalent circuit
representation were proposed and carefully analyzed based
on the microstructure features of the device. Basically, an
interpretation of the frequency dependent resistance was
proposed based on the fact that different grains characteristics
and junctions exist. These different grains and
junctions are the main source of resistance dependent
feature. An equivalent circuit model, considering different
grain sizes associated with different grain boundary junctions
characteristics, was introduced so that a consistent
interpretation of the results was possible.
2 thick films under vacuum and air atmosphere is
reported in the present work. The AC electrical resistance
was analyzed and it was shown that it is highly frequency
dependent. Different models and its equivalent circuit
representation were proposed and carefully analyzed based
on the microstructure features of the device. Basically, an
interpretation of the frequency dependent resistance was
proposed based on the fact that different grains characteristics
and junctions exist. These different grains and
junctions are the main source of resistance dependent
feature. An equivalent circuit model, considering different
grain sizes associated with different grain boundary junctions
characteristics, was introduced so that a consistent
interpretation of the results was possible.