Proceedings of 2010 IEEE International Symposium on Circuits and Systems 2010
DOI: 10.1109/iscas.2010.5537496
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Characterization of memristive Poly-Si Nanowires via empirical physical modelling

Nikolaos Archontas
1
,
Julius Georgiou
2
,
M. Haykel Ben Jamaa
3
et al.

Abstract: Abstract-Memristors are passive circuit elements that behave as resistors with memory. The recently illustrated experimental realization of memristive behaviour of Polysilicon Nanowires has triggered interest in this concept, which is promising to a wide variety of application areas that include neuromorphic circuits. In order to progress with practical implementations that use this technology we need to expand our understanding of the conduction mechanisms in these structures and of the underlying relationshi… Show more

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Cited by 2 publications
(1 citation statement)
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“…This is confirmed by the hysteretic values of the current for the same bias voltages (Fig. 8), and is probably related to the charge trapping mechanism at the Schottky junctions [28]. Fig.…”
Section: A the Memristive Effects In Silicon Nanowiressupporting
confidence: 71%

Memristive Biosensors Under Varying Humidity Conditions

Puppo
1
,
Dave
2
,
Doucey
3
et al. 2014
IEEE Trans.on Nanobioscience
Self Cite
39
3
43
0
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“…This is confirmed by the hysteretic values of the current for the same bias voltages (Fig. 8), and is probably related to the charge trapping mechanism at the Schottky junctions [28]. Fig.…”
Section: A the Memristive Effects In Silicon Nanowiressupporting
confidence: 71%

Memristive Biosensors Under Varying Humidity Conditions

Puppo
1
,
Dave
2
,
Doucey
3
et al. 2014
IEEE Trans.on Nanobioscience
Self Cite
39
3
43
0
View full textAdd to dashboardCite

On neuromorphic spiking architectures for asynchronous STDP memristive systems

Pérez-Carrasco
1
,
Zamarreno-Ramos
2
,
Serrano-Gotarredona
3
et al. 2010
Proceedings of 2010 IEEE International Symposium on Circuits and Systems
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