Abstract: A metal sealed organic light emitting diode device comprising a lid, containing a recessed portion to accommodate large quantity of getter/dessicant, a band of metal stack at the perimeter over which is laid a band of low temperature melting solder alloy, pre-tinned subsequently, and a substrate. The substrate containing organic light emitting diode at the central area with a band of metal stack at the perimeter. The lid and the substrate are placed together in substantial alignment such that the pre-tinned low melting solder band of the lid contacts the metal stack of the substrate and thermally sealed in a controlled atmosphere. Multiples of substrates are sealed with a single lid containing multiplicity of recessed portions with multi-segmented metal stack and pre-tinned solder band to derive a large area device.

Abstract: An efficient organic light emitting diode (OLED) device—incorporating a stack of thin films comprising a cathode, electron transport layer, hole modulating conductive layer, host layer, electron modulating conductive layer, hole transport layer, hole injection layer and a transparent anode layer—has increased recombination efficiency to generate substantial amount of light. The electron modulating electrode and hole modulating electrode embedded in the stack are applied with appropriate electrical bias to contain the electrons and holes respectively inside the host layer to enhance recombination and consequently light output.

Abstract: A planar organic light emitting diode (OLED) light source is processed on one of the substrates of a liquid crystal display (LCD) and sealed pin-hole free such that LCD processes, including internal polarizer, can be carried out on OLED without affecting the integrity of OLED and LCD. Both devices are held in alignment and hermetaically sealed between two substrates thus forming an integrated device and on application of suitable voltages to these devices OLED generates light and efficiently couples the light to LCD to function efficiently as a full color display.

Abstract: An organic light emitting diode (OLED) backlight integrated LCD comprising three substrates of which one substrate is shared by LCD and OLED backlight. The shared substrate has two surfaces of which one surface contains, among other layers, a transparent electrode, an internal polarizer and an aligning layer for liquid crystal and faces the top substrate of LCD that also contains identical layers. A thin liquid crystal film is sandwiched between the two substrates containing the said layers. The second surface of said shared substrate contains active organic layers that include an anode and a cathode and faces the bottom substrate of OLED backlight. The two surfaces of the shared substrate are hermetically sealed to the other two substrates of LCD and OLED. When electrically activated the OLED backlight device substantially couples and transmit its generated light in to the LCD.

Abstract: An efficient organic light emitting diode (OLED) device—incorporating a stack of thin films comprising a cathode, electron transport layer, hole modulating conductive layer, host layer, electron modulating conductive layer, hole transport layer, hole injection layer and a transparent anode layer—has increased recombination efficiency to generate substantial amount of light. The electron modulating electrode and hole modulating electrode embedded in the stack is applied with appropriate electrical bias to contain the electrons and holes respectively inside the host layer to enhance recombination and consequently light output.

Abstract: A metal sealed organic light emitting diode device comprising a lid, containing a recessed portion to accommodate large quantity of getter/dessicant, a band of metal stack at the perimeter over which is laid a band of low temperature melting solder alloy, pre-tinned subsequently, and a substrate. The substrate containing organic light emitting diode at the central area with a band of metal stack at the perimeter. The lid and the substrate are placed together in substantial alignment such that the pre-tinned low melting solder band of the lid contacts the metal stack of the substrate and thermally sealed in a controlled atmosphere. Multiples of substrates are sealed with a single lid containing multiplicity of recessed portions with multi-segmented metal stack and pre-tinned solder band to derive a large area device.

Abstract: An assembly for automatic background color change of a monochrome liquid crystal display comprising a monochrome liquid display, a dichroic guest-host cell, and a backlight device, emitting light in visible region of the spectrum. The devices are arranged in a sequence of, from top to bottom, liquid crystal display, dichroic cell and backlight device. The dichroic cell comprising a single dye or combination of dye, together with liquid crystal molecules, absorbing characteristic wavelengths from the spectrum of the backlight device and transmitting the remaining wavelengths, on application of suitable voltage to the cell. The assembly is integrated to form a single unit in which the three devices namely, liquid crystal display, dichroic cell and white light emitting backlight share at least one substrate with each other. On application of different amplitude of voltage to the dichroic cell, hues of colors as background colors for monochrome liquid crystal display is generated.