Fabrication of Wafer-Scale Organic Single-Crystal Films with Uniform In-Plane Orientation via Wetting-Assisted In-Air Sublimation for High-Performance Transistor Arrays

Lin, Qinglian; Ye, Xin; Guo, Qing; Zheng, Xiaojiao; Han, Qi; Zhang, Leilei; Cui, Shuangyue; Li, Cuicui; Jiang, Jun; Liu, Yang; Tao, Xiaofeng

doi:10.1021/acs.chemmater.1c03253

Cited by 9 publications

(12 citation statements)

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“…The crystallization capacities along a or b directions are less differentiating; however, due to the larger molecular packing overlap in a direction, the charge transporting ability along a ‐axis is about four to six times higher than that along b ‐axis according to our previous discoveries. [ 32 ] Such anisotropic characteristic makes it essential to manipulate the growth direction of the patterns along the closest packing a ‐axis, on the one hand to excavate the material's best‐performance, and on the other hand to avoid device performance inconsistency.…”

Section: Resultsmentioning

confidence: 99%

“…The growth procedure is similar to that in our previous work, [ 32 ] wherein a totally O 2 plasma treated silicon wafer was employed as the bottom substrate and the above‐mentioned substrate with patterned surface acting as the growth substrate was laid above the bottom substrate with a spacing distance of about 300 µm separated by a glass square ring. The grounded C8‐BTBT powders (about 50 µg) were placed on the bottom substrate as source materials.…”

Section: Resultsmentioning

confidence: 99%

“…As has been revealed in our last work, the molten C8‐BTBT liquid is complete wetting on the O 2 plasma surface while nonwetting on the OTS‐treated surface. [ 32 ] At the growth temperature of 150 °C, the C8‐BTBT powders melted into a liquid film covering the entire surface of the bottom substrate, which is in favor of uniform mass transport. Because of the wettability difference, the vaporized molecules deposited on the down surface of the top substrate would be pinned in the wettable O 2 plasma treated area, resulting patterned C8‐BTBT crystals at designed positions.…”

Section: Resultsmentioning

confidence: 99%

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Homogeneously Oriented Organic Single‐Crystalline Patterns Grown by Microspacing In‐Air Sublimation

Lin

Guo

et al. 2023

Small Methods

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tial to develop a patterning technology to grow discrete organic crystals at desired positions. [6,7] However, due to the poor controllability of the crystallization process for the large-conjugated molecules, the prepared organic semiconductor crystals often suffer from random location, limited and ununiform crystal size, and disordered crystallographic orientation arrangement, which impede the subsequent device construction on them. [8][9][10][11][12][13] Compared with the preparation of continuous crystalline films of organic semiconductors, the essential points to grow discrete single-crystalline patterns are to align the crystallographic orientation among the patterns besides controlling their deposition locations. Because the intermolecular packing mode differs along different directions in the anisotropic single crystals, the carrier transporting channels have intrinsic dependence on the crystallographic orientation. [14] In the reported patterning strategies the solution-based techniques are most widely used, wherein photolithography is usually adopted to define the locations of the patterns assisted by self-assembled monolayers or surface microstructures. [2,[15][16][17][18][19][20] Such solution patterning is regarded to be facile to handle and low-cost; nevertheless, as an inherent drawback of solution-based techniques, the residual solvent molecules may act as vulnerabilities that affect the stability and ruin the electron conductance. [21,22] Another notable fact is that the solution method is not applicable to organic semiconductors with rigid structures because they are difficult to dissolve in most organic solvents. In contrast, the vaporbased techniques have been well-established in the commercialized organic light-emitting diodes manufacturing, wherein vacuum deposition assisted by fine metal masks has proved its feasibility in high resolution and high throughput. [23,24] Similarly, vapor deposition of organic single crystals also provides with high purity and high quality, without worries about solvent residue or the poor solubility of the rigid organic semiconductors in organic solvents. [25,26] Compared to the control over growth positions, to align the crystallographic orientation among the discrete anisotropic single crystal patterns is more intractable. Taking pentacene as an example, the mobility when the crystallographic long axis is parallel with the channel direction is about tenfold higher than Fabrication of single-crystalline organic semiconductor patterns is of key importance to enable practical applications. However due to the poor controllability on nucleation locations and the intrinsic anisotropic nature of singlecrystals, growth of single-crystal patterns with homogeneous orientation is a big challenge especially by the vapor method. Herein a vapor growth protocol to achieve patterned organic semiconductor single-crystals with high crystallinity and uniform crystallographic orientation is presented. The protocol relies on the recently invented microspacing in-air sublimation a...

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Section: Resultsmentioning

confidence: 99%

Section: Resultsmentioning

confidence: 99%

Section: Resultsmentioning

confidence: 99%

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Homogeneously Oriented Organic Single‐Crystalline Patterns Grown by Microspacing In‐Air Sublimation

Lin

Guo

et al. 2023

Small Methods

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“…Besides, an OFET device array was prepared by a 2,7‐dioctyl[1]‐benzothieno[3,2‐ b ][1]benzothiophene (C8‐BTBT) film produced on an O 2 plasma‐treated substrate. [ 138 ] The schematic diagram of the device is shown in Figure 16j as well as the optical microscopy image of the array composed of 5 × 7 OFETs is displayed in Figure 16k. These devices have the same structure as the previous ones.…”

Section: Optoelectronic Applications Made From Vapor Growth Methodsmentioning

confidence: 99%

Vapor‐Phase Growth Strategies of Fabricating Organic Crystals for Optoelectronic Applications

Xia

Ding

et al. 2022

Adv Elect Materials

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Vapor‐phase growth methods, taking the advantages of producing high‐quality crystals with low defects, thin thickness, and homogeneous composition, are of great significance in the field of organic crystal growth and their high‐performance applications. At present, the requirements for organic crystals as building blocks for the construction of optoelectronic devices are increasing with the constant advances in organic optoelectronics. Therefore, the vapor‐phase growth method would become one of the practical techniques that cannot be ignored to fabricate organic crystals. In this paper, an overview of different vapor‐phase growth methods for the preparation of organic single crystals is provided. An introduction to the current status of the vapor phase method is presented and the view on the challenges it faces with some promising solution ideas. It is believed that this review will serve as a reference for further development and an inspiration for the new way forward.

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“…The growth of the CsPbBr 3 was carried out in a MAS setup similar to those in our previous work. [16][17][18][19][20] First, the grounded CsPbBr 3 powders as the source materials (approximately tens of micrograms) were placed on the hotplate. Then the growth substrate (silica/sapphire) lied above the source materials with a micro space of 300 mm defined by the glass square rings.…”

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confidence: 99%

Morphology dependent light-induced photoluminescence enhancement of CsPbBr₃ microcrystals

Tao

et al. 2023

Chem. Commun.

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Fabrication of Wafer-Scale Organic Single-Crystal Films with Uniform In-Plane Orientation via Wetting-Assisted In-Air Sublimation for High-Performance Transistor Arrays

Cited by 9 publications

References 58 publications

Homogeneously Oriented Organic Single‐Crystalline Patterns Grown by Microspacing In‐Air Sublimation

Homogeneously Oriented Organic Single‐Crystalline Patterns Grown by Microspacing In‐Air Sublimation

Vapor‐Phase Growth Strategies of Fabricating Organic Crystals for Optoelectronic Applications

Morphology dependent light-induced photoluminescence enhancement of CsPbBr₃ microcrystals

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Fabrication of Wafer-Scale Organic Single-Crystal Films with Uniform In-Plane Orientation via Wetting-Assisted In-Air Sublimation for High-Performance Transistor Arrays

Cited by 9 publications

References 58 publications

Homogeneously Oriented Organic Single‐Crystalline Patterns Grown by Microspacing In‐Air Sublimation

Homogeneously Oriented Organic Single‐Crystalline Patterns Grown by Microspacing In‐Air Sublimation

Vapor‐Phase Growth Strategies of Fabricating Organic Crystals for Optoelectronic Applications

Morphology dependent light-induced photoluminescence enhancement of CsPbBr3 microcrystals

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Product

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Morphology dependent light-induced photoluminescence enhancement of CsPbBr₃ microcrystals