AC drive scheme for organic led
First Claim
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1. In an organic light emitting device (LED) having an anode and cathode and a light emitting structure disposed between such anode and cathode, the improvement comprising:
- (a) an organic hole transporting layer;
(b) an organic luminescent layer; and
(c) means for applying an alternating voltage across the anode and cathode having a forward voltage portion which biases the LED to produce light and a reverse voltage portion in which substantially no light is produced, the voltage being selected so that the maximum forward voltage is less than or equal to the maximum reverse voltage in each AC voltage cycle, wherein the time that the forward voltage portion takes (tf) is longer than time (tr) the reverse voltage portion takes.
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Abstract
An electroluminescent device is disclosed comprising in sequence, an anode, an organic hole injecting and transporting zone, an organic electron injecting and transporting zone, and a cathode. An AC drive scheme for the electroluminescent device is disclosed which provides the device with a longer operational life.
272 Citations
5 Claims
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1. In an organic light emitting device (LED) having an anode and cathode and a light emitting structure disposed between such anode and cathode, the improvement comprising:
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(a) an organic hole transporting layer; (b) an organic luminescent layer; and (c) means for applying an alternating voltage across the anode and cathode having a forward voltage portion which biases the LED to produce light and a reverse voltage portion in which substantially no light is produced, the voltage being selected so that the maximum forward voltage is less than or equal to the maximum reverse voltage in each AC voltage cycle, wherein the time that the forward voltage portion takes (tf) is longer than time (tr) the reverse voltage portion takes.
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2. In an organic light emitting device (LED) having an anode and cathode and a light emitting structure disposed between such anode and cathode, the improvement comprising:
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(a) an organic hole injecting layer; (b) an organic hole transporting layer; (c) an organic luminescent layer; and (d) means for applying an alternating voltage across the anode and cathode having a forward voltage portion which biases the LED to produce light and a reverse voltage portion in which substantially no light is produced, the voltage being selected so that the maximum forward voltage is less than or equal to the maximum reverse voltage in each AC voltage cycle, wherein the time that the forward voltage portion takes (tf) is longer than time (tr) the reverse voltage portion takes.
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3. In an organic light emitting device (LED) having an anode and cathode and a light emitting structure disposed between such anode and cathode, the improvement comprising:
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(a) an organic layer containing a hole injecting porphyrinic compound and a hole transporting automatic tertiary amine; (b) an organic luminescent layer; (c) an electron transporting layer; and (d) means for applying an alternating voltage across the anode and cathode having a forward voltage portion which biases the LED to produce light and a reverse voltage portion in which substantially no light is produced, the voltage being selected so that the maximum forward voltage is less than or equal to the maximum reverse voltage in each AC voltage cycle, wherein the time that the forward voltage portion takes (tf) is longer than time (tr) the reverse voltage portion takes. - View Dependent Claims (4)
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5. In an organic light emitting device (LED) having an anode and cathode and a light emitting structure disposed between such anode and cathode, the improvement comprising:
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(a) an organic hole transporting layer; (b) an organic luminescent layer; and (c) means for applying an alternating voltage across the anode and cathode having a forward voltage portion which biases the LED to produce light and a reverse voltage portion in which substantially no light is produced, the voltage being selected so that the maximum forward voltage is less than or equal to the maximum reverse voltage in each AC voltage cycle, wherein the reverse voltage portion (tr) is at least 0.001×
the forward voltage portion (tf).
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Specification