Development of Graphene-Enhanced Concrete for Building and Infrastructures(主题会场：B16 石墨烯在建筑材料领域的应用)
Cement-based concrete is the most widely used building and construction material in the world. Although concrete itself is relatively durable when used under the mild environments, its intrinsic weak mechanical strength greatly limits its application due to its porous structure. Graphene is a 2D layer material with very high intrinsic strength and Young’s modulus. Its planar structure is beneficial for bonding on the upper and bottom surface in close distance with the hosting material such as cement hydrates so as to be able to enhance the properties of the hosting material. This presentation highlights the development of graphene-enhanced concrete for building and infrastructures. In our ongoing projects we intend to develop low cost functionalized graphene for enhancement of the fundamental properties of brittle cement-based materials. The research is in a holistic way covering nano-scale study and macro-scale proportioning from nano-modifications to macro-applications with the help of eco-labeling tools so as to achieve a new generation of cement-based concrete with markedly enhanced mechanical properties and durability, contributing to sustainable building structures and civil engineering infrastructures with desired long service life and optimal balance with economic and ecological aspects. 

Development of Graphene-Asphalt Composites for Road Pavement(主题会场：C03　中瑞石墨烯双边合作论坛）
沥青混凝土是常用的路面材料。沥青路面的使用寿命相对较短，主要是因为只需短短几年的时间就产生较大的车辙深度。修复路面的普通方法涉及除去表面层和重放新层。用石墨烯改性沥青，可使沥青的电导率和热导率增加，因此有可能通过红外线波或外部电力加热沥青路面, 从而熔化沥青路面的表面层使之重新平坦。另外，也可以通过其他手段加热路面，从而形成无冰路面，这对于北欧气候尤其重要。

Development of Graphene-Enhanced Concrete for Building and Infrastructures(主题会场：B16 石墨烯在建筑材料领域的应用)
Cement-based concrete is the most widely used building and construction material in the world. Although concrete itself is relatively durable when used under the mild environments, its intrinsic weak mechanical strength greatly limits its application due to its porous structure. Graphene is a 2D layer material with very high intrinsic strength and Young’s modulus. Its planar structure is beneficial for bonding on the upper and bottom surface in close distance with the hosting material such as cement hydrates so as to be able to enhance the properties of the hosting material. This presentation highlights the development of graphene-enhanced concrete for building and infrastructures. In our ongoing projects we intend to develop low cost functionalized graphene for enhancement of the fundamental properties of brittle cement-based materials. The research is in a holistic way covering nano-scale study and macro-scale proportioning from nano-modifications to macro-applications with the help of eco-labeling tools so as to achieve a new generation of cement-based concrete with markedly enhanced mechanical properties and durability, contributing to sustainable building structures and civil engineering infrastructures with desired long service life and optimal balance with economic and ecological aspects. 

Development of Graphene-Asphalt Composites for Road Pavement(主题会场：C03　中瑞石墨烯双边合作论坛）
沥青混凝土是常用的路面材料。沥青路面的使用寿命相对较短，主要是因为只需短短几年的时间就产生较大的车辙深度。修复路面的普通方法涉及除去表面层和重放新层。用石墨烯改性沥青，可使沥青的电导率和热导率增加，因此有可能通过红外线波或外部电力加热沥青路面, 从而熔化沥青路面的表面层使之重新平坦。另外，也可以通过其他手段加热路面，从而形成无冰路面，这对于北欧气候尤其重要。