Organic thin film transistor having patterned interface modification layer, display substrate and display apparatus having the same, and fabricating method thereof
원문보기
IPC분류정보
국가/구분
United States(US) Patent
등록
국제특허분류(IPC7판)
H01L-029/08
H01L-035/24
H01L-051/00
H01L-051/10
H01L-051/05
H01L-027/32
출원번호
US-0302955
(2016-04-06)
등록번호
US-10014483
(2018-07-03)
우선권정보
CN-2015 1 0451019 (2015-07-28)
국제출원번호
PCT/CN2016/078555
(2016-04-06)
국제공개번호
WO2017/016236
(2017-02-02)
발명자
/ 주소
Liu, Ze
출원인 / 주소
BOE TECHNOLOGY GROUP CO., LTD.
대리인 / 주소
Intellectual Valley Law, P.C.
인용정보
피인용 횟수 :
0인용 특허 :
2
초록▼
The present application discloses a method of fabricating an organic thin film transistor comprising providing a substrate; forming a patterned interface modification layer on the substrate; and forming an organic semiconductor layer on a side of the interface modification layer distal to the substr
The present application discloses a method of fabricating an organic thin film transistor comprising providing a substrate; forming a patterned interface modification layer on the substrate; and forming an organic semiconductor layer on a side of the interface modification layer distal to the substrate, wherein the patterned interface modification layer having a pattern of micro structure.
대표청구항▼
1. A method of fabricating an organic thin film transistor, comprising: providing a substrate;forming an interface modification material layer on the substrate;selecting a target region in the interface modification material layer;decreasing a contact angle of the interface modification material lay
1. A method of fabricating an organic thin film transistor, comprising: providing a substrate;forming an interface modification material layer on the substrate;selecting a target region in the interface modification material layer;decreasing a contact angle of the interface modification material layer in the target region with respect to an organic semiconductor material, by patterning the interface modification material layer in the target region to form a plurality of micro structures spaced apart from each other by a plurality of regions, thereby forming a patterned interface modification layer in the target region; andforming an organic semiconductor layer on a side of the patterned interface modification layer in the target region distal to the substrate;wherein,in the plurality of regions, an interface modification material is absent on a surface of one or more layers partially abutting the patterned interface modification layer and on a side of the patterned interface modification layer proximal to the base substrate;the organic semiconductor layer is formed to be in contact with the one or more layers in the plurality of regions in which the interface modification material is absent;each of the plurality of micro structures is formed to have at least one dimension smaller than a width of a source electrode of the organic thin film transistor; andeach of the plurality of regions is formed to have at least one dimension smaller than a width of a source electrode of the organic thin film transistor. 2. The method of claim 1, wherein the plurality of micro structures in the target region is formed to comprise one of: a plurality of first micro structures spaced apart from each other by multiple first regions, and on a side of a gate insulating layer distal to a gate electrode in a first contact region, the first contact region being a gate insulating layer region between a source electrode and a drain electrode in plan view of the substrate; and a plurality of second micro structures spaced apart from each other by multiple second regions, and on a side of the source electrode and the drain electrode distal to the gate insulating layer in a second contact region, the second contact region being a region corresponding to the source electrode and the drain electrode; wherein, when the plurality of micro structures in the target region are formed to comprise the plurality of first micro structures spaced apart from each other by the multiple first regions, the interface modification material is absent in the multiple first regions on a surface of the gate insulating layer in the first contact region; andthe organic semiconductor layer is formed to be in contact with the gate insulating layer in the multiple first regions;wherein, when the plurality of micro structures in the target region are formed to comprise the plurality of second micro structures spaced apart from each other by the multiple second regions, the interface modification material is absent in the multiple second regions on a surface of the source electrode and the drain electrode in the second contact region; andthe organic semiconductor layer is formed to be in contact with the source electrode and the drain electrode in the multiple second regions. 3. The method of claim 2, wherein forming the plurality of first micro structures comprises: forming a first interface modification material layer by applying a solution containing a first interface modification material to a surface of the substrate; washing the substrate with ethanol; and drying the substrate; exposing the first interface modification material layer to an ultraviolet light with a first mask plate; removing the first interface modification material in exposed areas by ultraviolet radiation; exposing the first interface modification material layer to an ultraviolet light in regions other than the first contact region, and removing the first interface modification material by ultraviolet radiation in the regions other than the first contact region. 4. The method of claim 2, wherein forming the plurality of second micro structures comprises: forming a second interface modification material layer by applying a solution containing a second interface modification material to a surface of the substrate; washing the substrate with ethanol; and drying the substrate; exposing the second interface modification material layer to an ultraviolet light with a second mask plate; removing the second interface modification material in exposed areas by ultraviolet radiation; exposing the second interface modification material layer to an ultraviolet light in regions other than the second contact region, and removing the second interface modification material by ultraviolet radiation in the regions other than the second contact region. 5. The method of claim 1, wherein the plurality of micro structures in the target region is formed to comprise both of: a plurality of first micro structures spaced apart from each other by multiple first regions, and on a side of a gate insulating layer distal to a gate electrode in a first contact region, the first contact region being a gate insulating layer region between a source electrode and a drain electrode in plan view of the substrate; and a plurality of second micro structures spaced apart from each other by multiple second regions, and on a side of the source electrode and the drain electrode distal to the gate insulating layer in a second contact region, the second contact region being a region corresponding to the source electrode and the drain electrode; the plurality of micro structures in the target region are formed to comprise the plurality of first micro structures spaced apart from each other by the multiple first regions, and the plurality of second micro structures spaced apart from each other by the multiple second regions;the interface modification material is absent in the multiple first regions on a surface of the gate insulating layer in the first contact region, and in the multiple second regions and on a surface of the source electrode and the drain electrode in the second contact region; andthe organic semiconductor layer is formed to be in contact with the gate insulating layer in the multiple first regions, and to be in contact with the source electrode and the drain electrode in the multiple second regions. 6. The method of claim 5, wherein the plurality of first micro structures are formed using a first mask plate; and the plurality of second micro structures are formed using a second mask plate different from the first mask plate. 7. The method of claim 5, wherein the plurality of first micro structures and the plurality of second micro structures are formed using a third mask plate in a single process. 8. The method of claim 5, wherein forming the plurality of first micro structures comprises: forming a first interface modification material layer by applying a solution containing a first interface modification material to a surface of the substrate; washing the substrate with ethanol; and drying the substrate; exposing the first interface modification material layer to an ultraviolet light with a first mask plate; removing the first interface modification material in exposed areas by ultraviolet radiation; exposing the first interface modification material layer to an ultraviolet light in regions other than the first contact region, and removing the first interface modification material by ultraviolet radiation in the regions other than the first contact region. 9. The method of claim 5, wherein forming the plurality of second micro structures comprises: forming a second interface modification material layer by applying a solution containing a second interface modification material to a surface of the substrate; washing the substrate with ethanol; and drying the substrate; exposing the second interface modification material layer to an ultraviolet light with a second mask plate; removing the second interface modification material in exposed areas by ultraviolet radiation; exposing the second interface modification material layer to an ultraviolet light in regions other than the second contact region, and removing the second interface modification material by ultraviolet radiation in the regions other than the second contact region. 10. The method of claim 1, wherein the substrate comprises a base substrate; a gate electrode on the base substrate; and a gate insulating layer on a side of the gate electrode distal to the base substrate; patterning the interface modification material layer in the target region comprises forming the plurality of micro structures spaced apart from each other by the plurality of regions on a side of gate insulating layer distal to the gate electrode;forming the organic semiconductor layer comprises forming the organic semiconductor layer on a side of the plurality of micro structures distal to the gate insulating layer; andsubsequent to forming the organic semiconductor layer, the method further comprising forming a source electrode and a drain electrode on a side of the organic semiconductor layer distal to the plurality of micro structures;in the plurality of regions, the interface modification material is absent on a surface of the gate insulating layer; andthe organic semiconductor layer is formed to be in contact with the gate insulating layer in the plurality of regions in which the interface modification material is absent. 11. The method of claim 10, wherein forming the interface modification material layer comprises applying a solution containing an interface modification material to a surface of the substrate; washing the substrate with ethanol; drying the substrate, thereby forming the interface modification material layer; and wherein patterning the interface modification material layer in the target region comprises exposing the interface modification material layer in the target region to an ultraviolet light with a mask plate; removing interface modification material in exposed areas by ultraviolet radiation thereby forming the plurality of micro structures. 12. The method of claim 1, wherein patterning the interface modification material layer in the target region comprises exposing the interface modification material layer to an ultraviolet light in the presence of ozone with a mask plate. 13. An organic thin film transistor, comprising: a base substrate;an organic semiconductor layer; anda patterned interface modification layer on a side of the organic semiconductor layer proximal to the base substrate and in a target region;wherein the patterned interface modification layer in the target region comprises a plurality of micro structures spaced apart from each other by a plurality of regions;the patterned interface modification layer has a decreased contact angle with respect to an organic semiconductor material as compared to an unpatterned interface modification layer;in the plurality of regions, an interface modification material is absent on a surface of one or more layers partially abutting the patterned interface modification layer and on a side of the patterned interface modification layer proximal to the base substrate;the organic semiconductor layer is in contact with the one or more layers in the plurality of regions in which the interface modification material is absent;each of the plurality of micro structures has at least one dimension smaller than a width of a source electrode of the organic thin film transistor; andeach of the plurality of regions has at least one dimension smaller than a width of a source electrode of the organic thin film transistor. 14. The organic thin film transistor of claim 13, further comprising a gate electrode on the base substrate, a gate insulating layer on a side of the gate electrode distal to the base substrate, and a source electrode and a drain electrode on a side of the gate insulating layer distal to the gate electrode; wherein the patterned interface modification layer comprises one or both of a first patterned interface modification layer comprising a plurality of first micro structures spaced apart from each other by multiple first regions, and on a side of gate insulating layer distal to the gate electrode in a first contact region, the first contact region being a gate insulating layer region between the source electrode and the drain electrode in plan view of the substrate, and a second patterned interface modification layer comprising a plurality of second micro structures spaced apart from each other by multiple second regions, and on a side of the source electrode and the drain electrode distal to the gate insulating layer in a second contact region, the second contact region being a region corresponding to the source electrode and the drain electrode;wherein, when the patterned interface modification layer comprises the first patterned interface modification layer, the interface modification material is absent in the multiple first regions on a surface of the gate insulating layer in the first contact region; andthe organic semiconductor layer is in contact with the gate insulating layer in the multiple first regions;wherein, when the patterned interface modification layer comprises the second patterned interface modification layer, the interface modification material is absent in the multiple second regions on a surface of the source electrode and the drain electrode in the second contact region; andthe organic semiconductor layer is in contact with the source electrode and the drain electrode in the multiple second regions. 15. The organic thin film transistor of claim 13, wherein the plurality of micro structures comprises an array of interface modification blocks or rods; and the plurality of regions in which the interface modification material is absent respectively space apart the interface modification blocks or rods. 16. The organic thin film transistor of claim 15, wherein the blocks or the rods has a length and a width in the range of about 0.1 μm to about 1 μm. 17. The organic thin film transistor of claim 13, wherein the patterned interface modification layer is made of a photosensitive organic molecule. 18. The organic thin film transistor of claim 13, further comprising a base substrate; a gate electrode on the base substrate; a gate insulating layer on a side of the gate electrode distal to the base substrate; and the source electrode and the drain electrode on a side of the organic semiconductor layer distal to the patterned interface modification layer; wherein the patterned interface modification layer is on a side of the gate insulating layer distal to the gate electrode; and the organic semiconductor layer is on a side of the patterned interface modification layer distal to the gate insulating layer;the interface modification material is absent in the plurality of regions on a surface of the gate insulating layer; andthe organic semiconductor layer is in contact with the gate insulating layer in the plurality of regions in which the interface modification material is absent. 19. A display substrate comprising the organic thin film transistor of claim 13. 20. A display apparatus comprising the display substrate of claim 19.
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이 특허에 인용된 특허 (2)
Kagan,Cherie R; Carmichael,Tricia Breen; Kosbar,Laura Louise, Patterning solution deposited thin films with self-assembled monolayers.
Tommie W. Kelley ; Dawn V. Muyres ; Mark J. Pellerite ; Timothy D. Dunbar ; Larry D. Boardman ; Terrance P. Smith, Surface modifying layers for organic thin film transistors.
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