Light emitters using nanotubes and methods of making same

US 8,471,238 B2
Filed: 09/15/2005
Issued: 06/25/2013
Est. Priority Date: 09/16/2004
Status: Active Grant

First Claim

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1. A light emitter, comprising:

a nanotube article in electrical communication with a first contact and a second contact, the nanotube article comprising a matted nanotube fabric having a first thermal conductivity;

a porous substrate having a predefined region with a second thermal conductivity, said predefined region in predefined physical relation to said nanotube article, the second thermal conductivity substantially lower than the first thermal conductivity; and

a driving circuit in electrical communication with the first and second contacts to apply electrical stimulus to the nanotube article to induce light emission in the proximity of the predefined region.

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Abstract

Light emitters using nanotubes and methods of making same. A light emitter includes a nanotube article in electrical communication with a first and a second contact, a substrate having a predefined region with a relatively low thermal conductivity said region in predefined physical relation to said nanotube article; and a stimulus circuit in electrical communication with the first and second contacts. The stimulus circuit provides electrical stimulation sufficient to induce light emission from the nanotube article in the proximity of the predefined region. The predefined region is a channel formed in the substrate or a region of material with relatively low thermal conductivity. The light emitter can be integrated with semiconductor circuits including CMOS circuits. The light emitter can be integrated into optical driver circuits (on- and off-chip drivers) and opto-isolators.

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12 Claims

1. A light emitter, comprising:
- a nanotube article in electrical communication with a first contact and a second contact, the nanotube article comprising a matted nanotube fabric having a first thermal conductivity;
  
  a porous substrate having a predefined region with a second thermal conductivity, said predefined region in predefined physical relation to said nanotube article, the second thermal conductivity substantially lower than the first thermal conductivity; and
  
  a driving circuit in electrical communication with the first and second contacts to apply electrical stimulus to the nanotube article to induce light emission in the proximity of the predefined region.
- View Dependent Claims (2, 3, 11)
- - 2. The light emitter of claim 1 wherein said predefined region is a channel formed in the substrate.
  - 3. The light emitter of claim 1 wherein said driving circuit provides electrical stimulation sufficient to induce black body radiation from the nanotube article in the proximity of the predefined region.
  - 11. The light emitter of claim 1, wherein the electrical stimulus is determined in accordance with one or more of the composition of the nanotube article, the porosity of the nanotube article, the porosity of the porous substrate, the second thermal conductivity, and the predefined physical relation.

4. A system, comprising:
- a porous substrate having a predefined region with a second thermal conductivity;
  
  an integrated circuit in the substrate;
  
  a light emitter havinga nanotube article in electrical communication with a first contact and a second contact, the nanotube article comprising a matted nanotube fabric having a first thermal conductivity, said nanotube article being in predefined physical relation to said predefined region, said first thermal conductivity being substantially higher than said second thermal conductivity; and
  
  a driving circuit in electrical communication with the first and second contacts to apply electrical stimulus to the nanotube article to induce light emission in the proximity of the predefined region.
- View Dependent Claims (5, 12)
- - 5. The system of claim 4 wherein said integrated circuit is a CMOS circuit.
  - 12. The system of claim 4, wherein the electrical stimulus is determined in accordance with one or more of the composition of the nanotube article, the porosity of the nanotube article, the porosity of the porous substrate, the second thermal conductivity, and the predefined physical relation.

6. An opto-isolator, comprising:
- a light emitter havinga nanotube article in electrical communication with a first and a second contact, the nanotube article comprising a matted nanotube fabric having a first thermal conductivity;
  
  a substrate having a predefined region with a second thermal conductivity said region in predefined physical relation to said nanotube article, said first thermal conductivity substantially higher than said second thermal conductivity; and
  
  a driving circuit in electrical communication with the first and second contacts constructed and arranged, in relationship with at least one of the composition of the nanotube article, the porosity of the nanotube article, the porosity of the substrate, the thermal conductivity of the substrate, and the predefined physical relation to apply sufficient electrical stimulus to the nanotube article in an arbitrary direction to induce light emission in the proximity of the predefined region; and
  
  an optical detector positioned relative to the light emitter to receive optical energy therefrom.
- View Dependent Claims (7)
- - 7. The opto-isolator of claim 6 wherein said light emitter and said optical detector are integrated in the same chip.

8. An optical integrated circuit, comprising:
- a light emitter havinga nanotube article in electrical communication with a first contact and a second contact, the nanotube article comprising a matted nanotube fabric having a first thermal conductivity;
  
  a porous substrate having a predefined region with a second thermal conductivity, said region in predefined physical relation to said nanotube article, the first thermal conductivity substantially higher than the second thermal conductivity; and
  
  an optical detector positioned relative to the light emitter to receive optical energy therefrom.
- View Dependent Claims (9, 10)
- - 9. The integrated circuit of claim 8 further comprising a driver circuit in electrical communication with the first and second contacts, wherein the driver circuit is an off-chip driver.
  - 10. The integrated circuit of claim 8 further comprising a driver circuit in electrical communication with the first and second contacts, wherein the driver circuit is an on-chip driver.

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Current Assignee
Nantero Incorporated
Original Assignee
Nantero Incorporated
Inventors
Ward, Jonathan W., Meinhold, Mitchell, Bertin, Claude L., Schlatka, Benjamin, Segal, Brent M., Ruckes, Thomas
Primary Examiner(s)
REAMES, MATTHEW L

Application Number

US11/227,468
Publication Number

US 20080036356A1
Time in Patent Office

2,840 Days
Field of Search

257/13, 257/E21.395
US Class Current

257/13
CPC Class Codes

B82Y 10/00   Nanotechnology for informat...

B82Y 20/00   Nanooptics, e.g. quantum op...

H01K 1/04   characterised by the materi...

H10K 85/221   Carbon nanotubes

H10K 85/615   Polycyclic condensed aromat...

Light emitters using nanotubes and methods of making same

First Claim

4 Assignments

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12 Claims

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Light emitters using nanotubes and methods of making same

First Claim

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Abstract

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