Vapor-solid interfacial reaction and polymerization for wafer-scale uniform and ultrathin two-dimensional organic films

被引:1
|
作者
Yao, Wenqian [1 ,2 ]
Yang, He [1 ]
Zhang, Qingsong [1 ]
Shi, Longxian [1 ,2 ]
Sun, Jianzhe [1 ]
Guo, Yunlong [1 ]
Jiang, Lang [1 ]
Wu, Bin [1 ]
Liu, Yunqi [1 ,2 ]
机构
[1] Chinese Acad Sci, Inst Chem, Beijing Natl Lab Mol Sci, Key Lab Organ Solids, Beijing 100190, Peoples R China
[2] Univ Chinese Acad Sci, Sino Danish Coll, Sino Danish Ctr Educ & Res, Beijing 100049, Peoples R China
来源
SCIENCE CHINA-MATERIALS | 2022年 / 65卷 / 06期
基金
中国国家自然科学基金;
关键词
organic films; interface; chemical vapor deposition; copper catalyst; debromination; CHARGE-TRANSPORT; CRYSTALLINE; TRANSISTORS; GRAPHENE; COPPER;
D O I
10.1007/s40843-021-1918-x
中图分类号
T [工业技术];
学科分类号
08 ;
摘要
Chemical vapor deposition is a conventional synthesis method for growing large-scale and high-quality two-dimensional materials, such as graphene, hexagonal boron nitride, and transition-metal dichalcogenides. For organic films, solution-based methods, such as inkjet printing, spin coating, and drop and micro-contact printing, are commonly used. Herein, we demonstrate a general method for growing wafer-scale continuous, uniform, and ultrathin (2-5 nm) organic films. This method is based on a copper (Cu) surface-mediated reaction and polymerization of several equivalent bromine (Br)-containing pi-conjugated small molecules (C12S3Br6, C24H4O2Br2, and C24H12Br2N4), in which local surface-mediated polymerization and internal pi-pi interactions among organic molecules are responsible for the dimension and uniformity control of the thin films. Specifically, the growth rate and morphology of thin films were found to be Cu-facet-dependent, and single-crystal Cu(111) surfaces could improve the uniformity of thin films. In addition, the number of Br groups and size of organic molecules were critical for crystallinity and thin-film formation. This method can be used to fabricate heterostructures, such as organic film/graphene, giving room for various functional materials and device applications.
引用
收藏
页码:1577 / 1585
页数:9
相关论文
共 37 条
  • [1] Vapor-solid interfacial reaction and polymerization for wafer-scale uniform and ultrathin two-dimensional organic films气固界面聚合反应制备晶圆级均匀超薄二维有机薄膜
    Wenqian Yao
    He Yang
    Qingsong Zhang
    Longxian Shi
    Jianzhe Sun
    Yunlong Guo
    Lang Jiang
    Bin Wu
    Yunqi Liu
    Science China Materials, 2022, 65 : 1577 - 1585
  • [2] Wafer-scale production of highly uniform two-dimensional MoS2 by metal-organic chemical vapor deposition
    Kim, TaeWan
    Mun, Jihun
    Park, Hyeji
    Joung, DaeHwa
    Diware, Mangesh
    Won, Chegal
    Park, Jonghoo
    Jeong, Soo-Hwan
    Kang, Sang-Woo
    NANOTECHNOLOGY, 2017, 28 (18)
  • [3] Orthogonal photopatterning of two-dimensional percolated network films for wafer-scale heterostructures
    Kwak, In Cheol
    Kim, Jihyun
    Moon, Jung Woo
    Kim, Seonkwon
    Park, Ji Yun
    Song, Okin
    Mazanek, Vlastimil
    Sofer, Zdenek
    Jo, Hyunwoo
    Park, Se Young
    Kang, Moon Sung
    Kang, Joohoon
    Cho, Jeong Ho
    NATURE ELECTRONICS, 2025, 8 (03): : 235 - 243
  • [4] Wafer-Scale Ultrathin Two-Dimensional Conjugated Microporous Polymers: Preparation and Application in Heterostructure Devices
    Liu, Zhengdong
    Song, Mengya
    Ju, Shang
    Huang, Xiao
    Wang, Xiangjing
    Shi, Xiaotong
    Zhu, Ya
    Wang, Zhan
    Chen, Jie
    Li, Hai
    Cheng, Yingchun
    Xie, Linghai
    Liu, Juqing
    Huang, Wei
    ACS APPLIED MATERIALS & INTERFACES, 2018, 10 (04) : 4010 - 4017
  • [5] A wafer-scale two-dimensional platinum monosulfide ultrathin film via metal sulfurization for high performance photoelectronics
    Pang, Jinbo
    Wang, Yanhao
    Yang, Xiaoxin
    Zhang, Lei
    Li, Yufen
    Zhang, Yu
    Yang, Jiali
    Yang, Feng
    Wang, Xiao
    Cuniberti, Gianaurelio
    Liu, Hong
    Ruemmeli, Mark H.
    MATERIALS ADVANCES, 2022, 3 (03): : 1497 - 1505
  • [6] Low-temperature wafer-scale synthesis of two-dimensional SnS2
    Pyeon, Jung Joon
    Baek, In-Hwan
    Lim, Weon Cheol
    Chae, Keun Hwa
    Han, Seong Ho
    Lee, Ga Yeon
    Baek, Seung-Hyub
    Kim, Jin-Sang
    Choi, Ji-Won
    Chung, Taek-Mo
    Han, Jeong Hwan
    Kang, Chong-Yun
    Kim, Seong Keun
    NANOSCALE, 2018, 10 (37) : 17712 - 17721
  • [7] Substrate engineering for wafer-scale two-dimensional material growth: strategies, mechanisms, and perspectives
    Zhao, Tiange
    Guo, Jiaxiang
    Li, Taotao
    Wang, Zhen
    Peng, Meng
    Zhong, Fang
    Chen, Yue
    Yu, Yiye
    Xu, Tengfei
    Xie, Runzhang
    Gao, Pingqi
    Wang, Xinran
    Hu, Weida
    CHEMICAL SOCIETY REVIEWS, 2023, 52 (05) : 1650 - 1671
  • [8] Growth behavior of wafer-scale two-dimensional MoS2 layer growth using metal-organic chemical vapor deposition
    Kwak, Taemyung
    Lee, Juhoon
    So, Byeongchan
    Choi, Uiho
    Nam, Okhyun
    JOURNAL OF CRYSTAL GROWTH, 2019, 510 : 50 - 55
  • [9] Layer-by-layer assembly of two-dimensional materials into wafer-scale heterostructures
    Kang, Kibum
    Lee, Kan-Heng
    Han, Yimo
    Gao, Hui
    Xie, Saien
    Muller, David A.
    Park, Jiwoong
    NATURE, 2017, 550 (7675) : 229 - 233
  • [10] Manufacturing strategies for wafer-scale two-dimensional transition metal dichalcogenide heterolayers
    Wang, Mengjing
    Li, Hao
    Ko, Tae-Jun
    Sumaiya Shawkat, Mashiyat
    Okogbue, Emmanuel
    Yoo, Changhyeon
    Han, Sang Sub
    Islam, Md Ashraful
    Oh, Kyu Hwan
    Jung, Yeonwoong
    JOURNAL OF MATERIALS RESEARCH, 2020, 35 (11) : 1350 - 1368
1234