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二维材料异质结定制

发表于 2019-12-09
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1.技术保障:国内顶尖技术博士团队,从事相关工作5年以上,发表众多高水平论文。

2.制备条件:完善先进的实验设备(迈塔光电精密定点转移平台、奥林巴斯金相显微镜、威格手套箱),齐全的二维材料(特殊材料除外),客户仅需提供器件结构图即可。

3.制备周期:材料剥离表征转移到器件完成整个工序,根据二维材料剥离难易程度货期会略有不同。正常货期约为1~2周。

4.材料表面洁净度:材料表面为原子级洁净。

5.可定制不同材料不同材质不同层数的异质结


一、可定制3种二维材料异质结:

(1)二维/二维异质结:不同种类二维材料形成的异质结。

二维材料异质结定制

Gao S, Wang Z, Wang H, et al. Graphene/MoS2/Graphene Vertical Heterostructure‐Based Broadband Photodetector with High Performance [J]. Advanced Materials Interfaces, 2021, 8(3): 2001730.

 

(2)零维/二维异质结:零维材料(量子点)与二维材料形成的异质结。

二维材料异质结定制

Zhou Y H, Zhang Z B, Xu P, et al. UV-visible photodetector based on I-type heterostructure of ZnO-QDs/monolayer MoS2 [J]. Nanoscale research letters, 2019, 14(1): 1-10.

 

(3)零维/一维异质结:一维材料(纳米线)与二维材料形成的异质结。

二维材料异质结定制

Zhang Y, Zhang F, Wu L, et al. Van der Waals Integration of Bismuth Quantum Dots–Decorated Tellurium Nanotubes (Te@ Bi) Heterojunctions and Plasma‐Enhanced Optoelectronic Applications[J]. Small, 2019, 15(47): 1903233.

 

二、制备方法:

(1)二维/二维异质结:干转移法等。下图为干转移法制备三种二维材料组成的异质结的过程示意图。

二维材料异质结定制

 

(2)零维/二维异质结:旋涂法、浸泡法等。下图为旋涂法制备一维/二维异质结的过程示意图。

二维材料异质结定制

 

(3)零维/一维异质结:化学法等。下图为化学法制备零维Bi/一维Te异质结的结果表征,结果表明异质结构中零维Bi几乎均匀地分布在一维Te纳米管的表面。

二维材料异质结定制

Zhang Y, Zhang F, Wu L, et al. Van der Waals Integration of Bismuth Quantum Dots–Decorated Tellurium Nanotubes (Te@ Bi) Heterojunctions and Plasma‐Enhanced Optoelectronic Applications[J]. Small, 2019, 15(47): 1903233.

 

三、应用领域:

如下图所示,异质结在很多领域具有广泛应用。例如电子器件、光电器件、压电器件、能源应用等。

二维材料异质结定制

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