Electric element capable of controlling the electric conductivity of .pi.-conjugated macromolecular materials
First Claim
1. An electric element which comprises:
- a π
-conjugated macromolecular material which is liable to increase its conductivity when it is put in an excited state by polarization of a dielectric substance;
a ferroelectric material disposed so close to said π
-conjugated macromolecular material that excitation of said π
-conjugated macromolecular material occurs in response to polarization of said ferroelectric material;
a pair of input and output electrodes disposed at the opposite ends of said π
-conjugated macromolecular material to make their respective ohmic-contacts therewith; and
a pair of control electrodes disposed so as to sandwich said π
-conjugated macromolecular material in the direction perpendicular to the direction in which said input and output electrodes are laid, the conductivity of said electric element between input and output electrodes varying corresponding to the voltage of the electric field when an electric field is applied between said control electrodes.
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Abstract
An electric element of the present invention comprises a π-conjugated macromolecular material which is liable to increase its conductivity by its excitation due to dielectric polarization, and a ferroelectric material disposed in the close proximity of said π-conjugated macromolecular material so that polarization of said ferroelectric material in the presence of an electric field causes excitation of said π-conjugated macromolecular material, thereby changing the conductivity of said π-conjugated macromolecular material correspondingly with the strength of said electric field and resultantly controlling said conductivity. The electric element can be used as a d.c. or a.c. relay element, memory element, switching element, or any other active element.
106 Citations
10 Claims
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1. An electric element which comprises:
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a π
-conjugated macromolecular material which is liable to increase its conductivity when it is put in an excited state by polarization of a dielectric substance;a ferroelectric material disposed so close to said π
-conjugated macromolecular material that excitation of said π
-conjugated macromolecular material occurs in response to polarization of said ferroelectric material;a pair of input and output electrodes disposed at the opposite ends of said π
-conjugated macromolecular material to make their respective ohmic-contacts therewith; anda pair of control electrodes disposed so as to sandwich said π
-conjugated macromolecular material in the direction perpendicular to the direction in which said input and output electrodes are laid, the conductivity of said electric element between input and output electrodes varying corresponding to the voltage of the electric field when an electric field is applied between said control electrodes. - View Dependent Claims (2, 3, 4, 5, 6, 7, 8)
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9. A method of controlling the conductivity of a π
- -conjugated macromolecular material, which material is capable of increasing its conductivity when put in its excited state by polarization of a dielectric substance, which comprises;
disposing a ferroelectric material so close to said π
-conjugated macromolecular material that polarization of said ferroelectric material causes excitation of said π
-conjugated macromolecular material; andapplying an electric field of controlled strength to said ferroelectric material to cause polarization of said ferroelectric material, whereby said π
-conjugated macromolecular material is put in its excited state and the conductivity of said π
-conjugated macromolecular material changes corresponding to the strength of said electric field. - View Dependent Claims (10)
- -conjugated macromolecular material, which material is capable of increasing its conductivity when put in its excited state by polarization of a dielectric substance, which comprises;
Specification