Aluminum/Al2O3/polymer/metal capacitors submitted to a low-power constant current stress undergo dielectric breakdown. The post-breakdown conduction is metastable, and over time the capacitors recover their original insulating properties. The decay of the conduction with time follows a power law (1/t)a. The magnitude of the exponent a can be raised by application of an electric field and lowered to practically zero by optical excitation of the polyspirofluorene polymer. The metastable conduction is attributed to formation of metastable pairs of oppositely charged defects across the oxide-polymer interface, and the self-healing is related to resistive switching
Electroforming of an Al/Al2O3/polymer/Al esistive switching diode is reported. Electroforming is a d...
The electrical breakdown of thin films of polyphenylene oxide electrochemically deposited on stainle...
We present a quantitative physical model describing degradation of poly-crystalline HfO2 dielectric...
Aluminum/Al2O3/polymer/metal capacitors submitted to a low-power constant current stress undergo die...
The advantage of modern metallized film capacitors is high reliability caused by so-called ability t...
There are no reliable measures for identifying self-healing failures in capacitors. Therefore, the h...
Polymer films are too thin to be characterized by guarded needle experiments and must be studied in ...
Self-healing materials are required for development of various flexible electronic devices to repair...
It is well known that a capacitor can recover part of the charge due to previous polarization after ...
Temporal evolution of electric field distribution and its resulting energy dissipation in a metalliz...
Metallized film capacitors widely used in energy applications were studied. The experimental method ...
Self-clearing metalized film capacitors provide outstanding energy density by facilitating operation...
Part 18: Electronic MaterialsInternational audienceElectroforming of an Al/Al2O3/polymer/Al resistiv...
Corrosion of the metallic film in cylindrical metallized film capacitors generally progresses from t...
This dissertation describes a combined computational and experimental study to understand the fundam...
Electroforming of an Al/Al2O3/polymer/Al esistive switching diode is reported. Electroforming is a d...
The electrical breakdown of thin films of polyphenylene oxide electrochemically deposited on stainle...
We present a quantitative physical model describing degradation of poly-crystalline HfO2 dielectric...
Aluminum/Al2O3/polymer/metal capacitors submitted to a low-power constant current stress undergo die...
The advantage of modern metallized film capacitors is high reliability caused by so-called ability t...
There are no reliable measures for identifying self-healing failures in capacitors. Therefore, the h...
Polymer films are too thin to be characterized by guarded needle experiments and must be studied in ...
Self-healing materials are required for development of various flexible electronic devices to repair...
It is well known that a capacitor can recover part of the charge due to previous polarization after ...
Temporal evolution of electric field distribution and its resulting energy dissipation in a metalliz...
Metallized film capacitors widely used in energy applications were studied. The experimental method ...
Self-clearing metalized film capacitors provide outstanding energy density by facilitating operation...
Part 18: Electronic MaterialsInternational audienceElectroforming of an Al/Al2O3/polymer/Al resistiv...
Corrosion of the metallic film in cylindrical metallized film capacitors generally progresses from t...
This dissertation describes a combined computational and experimental study to understand the fundam...
Electroforming of an Al/Al2O3/polymer/Al esistive switching diode is reported. Electroforming is a d...
The electrical breakdown of thin films of polyphenylene oxide electrochemically deposited on stainle...
We present a quantitative physical model describing degradation of poly-crystalline HfO2 dielectric...