On the dispersion systems of graphene-like two-dimensional materials: From fundamental laws to engineering guidelines

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• 作者：Chenlu Bao^a ; He Zhang^a ; Charles A. Wilkie^b ; Shuguang Bi^a ; Xiu-Zhi Tang^a ; Jian Wu^a ; Jinglei Yang^a ; ^c ; ^{maeyang@ust.hk" class="auth_mail" title="E-mail the corresponding author}
• 刊名：Carbon
• 出版年：2016
• 出版时间：October 2016
• 年：2016
• 卷：107
• 期：Complete
• 页码：774-782
• 全文大小：2265 K

文摘

Dispersion systems such as solutions, suspensions and composites are frequently studied in the field of graphene and two-dimensional materials. The rapid development of these materials demands comprehensive insight into their dispersion systems. Here we present an innovative and systematic investigation on the dispersion systems of graphene-like two-dimensional materials. It is found that different dispersion systems exhibit similar fundamental laws which can be described based on a Most Probable Percolation Threshold (MPPT) theory. Two-dimensional sheets contact with their neighboring ones at around their MPPT concentrations and thus lead to sudden changes in various properties of dispersion systems, such as liquid crystal behavior, viscosity, mechanical strength, electrical conductivity and thermal properties. Starting from the MPPT theory, six new strategic guidelines for the engineering of dispersion systems are established. Based on these studies, we find that, appropriate size, appropriate thickness, and appropriate concentration, are the keys to the success of 2dMs dispersion systems in practical applications, and the MPPT theory could tell where it is appropriate. These investigations provide new theories, methodologies and guidelines for the science, engineering and developments of graphene and two-dimensional materials.