Process for roll-to-roll manufacture of a display by synchronized photolithographic exposure on a substrate web

US 6,933,098 B2
Filed: 02/15/2001
Issued: 08/23/2005
Est. Priority Date: 01/11/2000
Status: Expired due to Fees

First Claim

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1. A process for the preparation of a plurality of well-defined structures, said process comprises the following steps, not necessarily in the order as listed:

(a) providing a support web;

(b) coating a layer of a radiation curable material on said support web;

(c) providing a photomask as a continuous loop which comprises a pattern corresponding in form to at least one of said well-defined structures;

(d) aligning said photomask loop with said support web so that at least a portion of said photomask loop is in generally parallel orientation to at least a portion of said support web;

(e) moving said photomask loop and said support web in a synchronized motion so that at least a portion of said photomask loop and at least a portion of said support web are moving in parallel in substantially the same direction;

(f) passing radiation through a portion of said photomask loop directly onto the radiation curable material on a portion of said support web, which is in generally parallel orientation to said portion of said photomask loop through which the radiation passes, for imagewise exposure of a portion of said radiation curable material and leaving another portion of said radiation curable material unexposed; and

(g) removing said unexposed radiation curable material to form a plurality of said well-defined structures.

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Abstract

This invention relates to an electrophoretic display or a liquid crystal display and novel processes for its manufacture. The electrophoretic display (EPD) of the present invention comprises microcups of well-defined shape, size and aspect ratio and the microcups are filled with charged pigment particles dispersed in an optically contrasting dielectric solvent. The liquid crystal display (LCD) of this invention comprises well-defined microcups filled with at least a liquid crystal composition having its ordinary refractive index matched to that of the isotropic cup material. A novel roll-to-roll process and apparatus of the invention permits the display manufacture to be carried out continuously by a synchronized photo-lithographic process. The synchronized roll-to-roll process and apparatus permits a pre-patterned photomask, formed as a continuous loop, to be rolled in a synchronized motion in close parallel alignment to a web which has been pre-coated with a radiation sensitive material, so as to maintain image alignment during exposure to a radiation source. The radiation sensitive material may be a radiation curable material, in which the exposed and cured portions form the microcup structure. In an additional process step, the radiation sensitive material may be a positively working photoresist which temporarily seals the microcups. Exposure of a selected subset of the microcups via the photomask image permits selective re-opening, filling and sealing of the microcup subset. Repetition with additional colors permits the continuous assembly of a multicolor EPD or LCD display.

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40 Claims

1. A process for the preparation of a plurality of well-defined structures, said process comprises the following steps, not necessarily in the order as listed:
- (a) providing a support web;
  
  (b) coating a layer of a radiation curable material on said support web;
  
  (c) providing a photomask as a continuous loop which comprises a pattern corresponding in form to at least one of said well-defined structures;
  
  (d) aligning said photomask loop with said support web so that at least a portion of said photomask loop is in generally parallel orientation to at least a portion of said support web;
  
  (e) moving said photomask loop and said support web in a synchronized motion so that at least a portion of said photomask loop and at least a portion of said support web are moving in parallel in substantially the same direction;
  
  (f) passing radiation through a portion of said photomask loop directly onto the radiation curable material on a portion of said support web, which is in generally parallel orientation to said portion of said photomask loop through which the radiation passes, for imagewise exposure of a portion of said radiation curable material and leaving another portion of said radiation curable material unexposed; and
  
  (g) removing said unexposed radiation curable material to form a plurality of said well-defined structures.
- View Dependent Claims (2)
- - 2. The process of claim 1 wherein said photomask loop and said support web are moving at substantially the same speed.

3. A process for the preparation of a plurality o f microcups, which process comprises the following steps, not necessarily in the order listed:
- (a) providing a support web which comprises a plurality of conductor lines for addressing said microcups;
  
  (b) coating a layer of a radiation curable material on said support web;
  
  (c) providing a photomask as a continuous loop which comprises a pattern corresponding in form to at least one of said microcups;
  
  (d) passing radiation through a portion of said photomask loop directly onto the radiation curable material on a portion of said support web, which is in generally parallel orientation to said portion of said photomask loop through which the radiation passes, for imagewise exposure of a portion of said radiation curable material and leaving another portion of said radiation curable material unexposed; and
  
  (e) removing said unexposed radiation curable material so as to form a L!plurality of said microcups.
- View Dependent Claims (4, 5, 6, 7)
- - 4. The process of claim 3 further comprising filling said microcups with an electrophoretic display pigment/solvent composition or a liquid crystal display composition and sealing said filled microcups.
  - 5. The process of claim 4 wherein said step of filling comprises filling substantially all of said microcups with a single electrophoretic display pigment/solvent composition or a liquid crystal display composition to form a monochrome display.
  - 6. The process of claim 4 wherein said step of filling comprises filling said microcups with different electrophoretic display pigment/solvent compositions or different liquid crystal display compositions to form a multi-color display.
  - 7. The process of claim 3 wherein said conductor lines are transparent to visible light.

8. A process for the preparation of a plurality of well-defined structures, said process comprises the following steps, not necessarily in the order as listed:
- (a) providing a support web which comprises a plurality of elements;
  
  (b) coating a layer of a radiation curable material on said support web;
  
  (c) providing a photomask as a continuous loop which comprises a pattern having areas of transparency and areas of opacity;
  
  (d) aligning at least a portion of said photomask loop and at least a portion of said support web in a manner that said areas of opacity correspond to said elements on said support web;
  
  (e) moving said photomask loop and said support web in a synchronized motion so as to maintain a predetermined spatial relationship between at least a portion of said photomask loop and at least a portion of said support web wherein said synchronized motion comprises moving at least a portion of said photomask loop and at least a portion of said support web in parallel in substantially the same direction;
  
  (f) passing radiation through a portion of said photomask loop directly onto the radiation curable material on a portion of said support web, which is in generally parallel orientation to said portion of said photomask loop through which the radiation passes, for imagewise exposure of a portion of said radiation curable material through said areas of transparency of said photomask loop and leaving another portion of said radiation curable material corresponding to said areas of opacity of said photomask loop unexposed; and
  
  (g) removing said unexposed radiation curable material to form a plurality of said well-defined structures.
- View Dependent Claims (9, 10, 11, 12, 13, 14, 15, 16)
- - 9. The process of claim 8 wherein said photomask loop and said support web are moving at substantially the same speed.
  - 10. The process of claim 9 wherein said photomask loop and said support web are moving at a constant speed.
  - 11. The process of claim 8 wherein steps (e) and (f) are carried out simultaneously.
  - 12. The process of claim 8 wherein step (b) is carried out continuously.
  - 13. The process of claim 8 wherein step (e) is carried out continuously.
  - 14. The process of claim 8 wherein step (f) is carried out continuously.
  - 15. The process of claim 8 further comprising the following steps:
    - (i) detecting one of said elements or a pre-formed marker on said support web;
      
      (ii) detecting one of said areas of opacity or a pre-formed marker on said photomask loop; and
      
      (iii) controlling the motion of said support web and said photomask loop in response to steps (i) and (ii) so as to bring at least a portion of said support web into said predetermined spatial relationship with at least a portion of said photomask loop.
  - 16. The process of claim 8 wherein said elements are conductor lines.

17. A process for the preparation of microcups which process comprises the following steps, not necessarily in the order listed:
- (a) providing a support web which comprises a plurality of conductor lines for addressing said microcups;
  
  (b) coating a layer of a radiation curable material on said support web;
  
  (c) providing a photomask as a continuous loop which comprises a pattern having areas of transparency and areas of opacity and said areas of transparency correspond in form to wall structure of said microcups;
  
  (d) aligning at least a portion of said photomask loop and at least a portion of said support web in a mariner that said areas of opacity correspond to said conductor lines on said support web;
  
  (e) moving said photomask loop and said support web in a synchronized motion so as to maintain a predetermined spatial relationship between at least a portion of said photomask loop and at least a portion of said support web;
  
  (f) passing radiation through a portion of said photomask loop directly onto the radiation curable material on a portion of said support web, which is in generally parallel orientation to said portion of said photomask loop through which the radiation passes, for imagewise exposure of a portion of said radiation curable material through said areas of transparency of said photomask loop and leaving another portion of said radiation curable material corresponding to said areas of opacity of said photomask loop unexposed; and
  
  (g) removing said unexposed radiation curable material to form said microcups.
- View Dependent Claims (18, 19)
- - 18. The process of claim 17 which step of removing said unexposed radiation curable material is carried out continuously.
  - 19. The process of claim 17 wherein said conductor lines are transparent to visible light.

20. A process for the preparation of a multi-color display, which process comprises:
- (a) providing a support web which comprises a plurality of pre-formed microcups with top openings;
  
  (b) laminating a layer of a radiation curable material over said top openings of said microcups;
  
  (c) providing a first photomask as a continuous loop which comprises a pattern corresponding in form to said top openings of a first pre-selected subset of microcups;
  
  (d) passing radiation through a portion of said first photomask loop directly onto the radiation curable material laminated over said top openings of said microcups on a portion of said support web, which is in generally parallel orientation to said portion of said first photomask loop through which the radiation passes, for imagewise exposure of a portion of said radiation curable material and leaving another portion of said radiation curable material unexposed;
  
  (e) removing said exposed radiation curable material so as to re-open said first pre-selected subset of microcups, and (f) filling said re-opened first pre-selected subset of microcups with a first electrophoretic display pigment/solvent composition or a liquid crystal display composition.
- View Dependent Claims (21, 22, 23, 24, 25, 26, 27)
- - 21. The process of claim 20 wherein said radiation curable material is a positively working photoresist.
  - 22. The process of claim 20 further comprising the step of sealing said filled first pre-selected subset of microcups.
  - 23. The process of claim 22 further comprising the following steps:
    - (i) providing a second photomask as a continuous loop which comprises a pattern corresponding in form to said top openings of a second pre-selected subset of microcups;
      
      (ii) passing radiation through a portion of said second photomask loop directly onto the radiation curable material laminated over said top openings of said microcups on a portion of said support web, which is in generally parallel orientation to said portion of said second photomask loop through which the radiation passes, for imagewise exposure of a portion of said radiation curable material and leaving another portion of said radiation curable material unexposed;
      
      (iii) removing said exposed radiation curable material so as to re-open said second pre-selected subset of microcups, and (iv) filling said re-opened second pre-selected subset of microcups with a second electrophoretic display pigment/solvent composition or a liquid crystal display composition.
  - 24. The process of claim 23 further comprising the step of sealing said filled second pre-selected subset of microcups.
  - 25. The process of claim 24 further comprising the following steps:
    - (i) providing a third photomask as a continuous loop which comprises a pattern corresponding in form to said top openings of a third pre-selected subset of microcups;
      
      (ii) passing radiation through a portion of said third photomask loop directly onto the radiation curable material laminated over said top openings of said microcups on a portion of said support web, which is in generally parallel orientation to said portion of said third photomask loop through which the radiation passes, for imagewise exposure of a portion of said radiation curable material and leaving another portion of said radiation curable material unexposed;
      
      (iii) removing said exposed radiation curable material so as to re-open said third pre-selected subset of microcups, and (iv) filling said re-opened third pre-selected subset of microcups with a third electrophoretic display pigment/solvent composition or a liquid crystal display composition.
  - 26. The process of claim 25 further comprising the step of sealing the filled third pre-selected subset of microcups.
  - 27. The process of claim 26 further comprising laminating said sealed first, second and third subsets of microcups with a top laminate.

28. A process for the preparation of a multi-color display, which process comprises:
- (a) providing a support web which comprises a plurality of pre-formed microcups with top openings;
  
  (b) laminating a layer of a positively working photoresist over said top openings of said microcups;
  
  (c) providing a first photomask as a continuous loop which comprises a pattern having areas of transparent and areas of opacity and said areas of transparency correspond in form to said top openings of a first pre-selected subset of microcups;
  
  (d) passing radiation through a portion of said first photomask loop directly onto the positively working photoresist laminated over said top openings of said microcups on a portion of said support web, which is in generally parallel orientation to said first photomask loop through which the radiation passes, for imagewise exposure of said positively working photoresist through said areas of transparency of said first photomask loop and leaving the positively working photoresist corresponding to said areas of opacity of said first photomask loop unexposed;
  
  (e) removing said exposed positively working photoresist so as to re-open said first pre-selected subset of microcups, and (f) filling said re-opened first pre-selected subset of microcups with a first electrophoretic display pigment/solvent composition or a liquid crystal display composition.
- View Dependent Claims (29, 30, 31, 32, 33, 34, 35)
- - 29. The process of claim 28 further comprising the step of sealing said filled first pre-selected subset of microcups.
  - 30. The process of claim 29 further comprising the following steps:
    - (i) providing a second photomask as a continuous loop which comprises a pattern having areas of transparency and areas of opacity and said areas of transparency correspond in form to said top openings of a second pre-selected subset of microcups;
      
      (ii) passing radiation through a portion of said second photomask loop directly onto the positively working photoresist laminated over said top openings of said microcups on a portion of said support web, which is in generally parallel orientation to said second photomask loop through which the radiation passes, for imagewise exposure of said positively working photoresist through said areas of transparency of said second photomask loop and leaving the positively working photoresist corresponding to said areas of opacity of said second photomask loop unexposed;
      
      (iii) removing said exposed positively working photoresist so as to re-open said second pre-selected subset of microcups, and (iv) filling said re-opened second pre-selected subset of microcups with a second electrophoretic display pigment/solvent composition or a liquid crystal display composition.
  - 31. The process of claim 30 further comprising the step of sealing said filled second pre-selected subset of microcups.
  - 32. The process of claim 31 further comprising the following steps:
    - (i) providing a third photomask as a continuous loop which comprises a pattern having areas of transparency-and areas of opacity and said areas of transparency correspond in form to said top openings of a third pre-selected subset of microcups;
      
      (ii) passing radiation through a portion of said third photomask loop directly onto the positively working photoresist laminated over said top openings of said microcups on a portion of said support web, which is in generally parallel orientation to said third photomask loop through which the radiation passes, for imagewise exposure of said positively working photoresist through said areas of transparency of said third photomask loop and leaving the positively working photoresist corresponding to said areas of opacity of said third photomask loop unexposed;
      
      (iii) removing said exposed positively working photoresist so as to re-open said third pre-selected subset of microcups, and (iv) filling said re-opened third pre-selected subset of microcups with a third electrophoretic display pigment/solvent composition or a liquid crystal display composition.
  - 33. The process of claim 32 further comprising the step of sealing said filled third pre-selected subset of microcups.
  - 34. The process of claim 33 further comprising laminating over said sealed first, second and third subsets of microcups with a top laminate for addressing said microcups.
  - 35. The process of claim 34 wherein said top laminate is coated with an adhesive.

36. A photolithographic process comprising imagewise exposure through a moving photomask synchronized with a moving web substrate wherein said web substrate comprises indium-tin oxide on polyethylene terephthalate, polyethylene naphthalate or polycarbonate and said indium-tin oxide is coated with a radiation curable material and said imagewise exposure is accomplished by passing radiation through a portion of said photomask directly onto said radiation curable material coated on said indium-tin oxide on said web substrate which is in generally parallel orientation to said portion of said photomask through which the radiation passes.
- View Dependent Claims (37, 38, 39, 40)
- - 37. The process of claim 36 wherein said radiation curable material is a positively working photoresist.
  - 38. The process of claim 37 wherein said web substrate is indium-tin oxide/polyethylene terephthalate coated with a positively working photoresist.
  - 39. The process of claim 38 wherein the positively working photoresist is developed after exposure and the indium-tin oxide/polyethylene terephthalate is etched too expose discrete patterns.
  - 40. The process of claim 39 wherein said positively working photoresist is stripped.

Specification

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Current Assignee
E Ink California, LLC (E Ink Corporation)
Original Assignee
SiPix Imaging, Inc. (E Ink Holdings Incorporated)
Inventors
Zang, Hong-Mei, Chen, Xianhai, Chan-Park, Mary, Wu, Zarng-Arh George, Liang, Rong-Chang, Wang, Xiaojia
Primary Examiner(s)
McPherson, John A.
Assistant Examiner(s)
CHACKO DAVIS, DABORAH

Application Number

US09/784,972
Publication Number

US 20020182544A1
Time in Patent Office

1,650 Days
Field of Search

430311-329, 355402-403, 355 53- 67, 204453-485
US Class Current

430/311
CPC Class Codes

G02F 1/133305   Flexible substrates, e.g. p...

G02F 1/133377   Cells with plural compartme...

G02F 1/167   by electrophoresis

G02F 1/16755   Substrates

G02F 1/1679   Gaskets; Spacers; Sealing o...

Process for roll-to-roll manufacture of a display by synchronized photolithographic exposure on a substrate web

First Claim

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Abstract

228 Citations

40 Claims

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Process for roll-to-roll manufacture of a display by synchronized photolithographic exposure on a substrate web

First Claim

3 Assignments

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0 Petitions

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Accused Products

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Abstract

228 Citations

40 Claims

Specification

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Use Cases

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