中文摘要：

Gemini表面活性剂是由2个单头单链表面活性剂在头基处或靠近头基处由连接基团通过化学键连接而成的一类表面活性剂,它具备许多优于传统单链表面活性剂的特征和性质,它的高效性可大大降低表面活性剂的用量.近年来,Gemini表面活性剂与聚合物之间相互作用的研究越来越得到研究者的关注.本文将综述Gemini表面活性剂与聚合物之间的相互作用,以期使研究者比较全面地认识此领域的研究进展.主要内容包括阳离子Gemini表面活性剂α,ω-（CmH（2m＋1）N~＋（CH3）2）2（CH2）S（Br~-）2（m-s-m）与聚电解质,非离子聚合物,以及疏水改性聚合物之间的相互作用;其他结构Gemini表面活性剂与不同聚合物之间的相互作用.最后对该领域发展方向进行了展望.

英文摘要：

Gemini surfactants are constructed by two hydrophobic chains and two polar/ionic head groups covalently connected by a spacer group at the level of or in close vicinity to the head groups. Due to their special self-assembly ability, they are superior to the corresponding conventional monomeric surfactants in characteristic features, such as remarkably low critical micellar concentration （CMC）, high surface activity, unusual rheological properties, multifarious aggregate structures, better wetting ability, and so on. Owing to these unique properties, gemini surfactants have shown great promise in various areas. Gemini surfactants have been attracting great attention in both the academic and industrial worlds. There is increasing pressure to reduce our dependency on resources and to reduce the load we place on the environment. Surfactant-based formulations for water purification pharmaceuticals, cosmetics, detergency and oil recovery normally contain water-soluble polymers. Surfactant/polymer mixtures can provide improved properties that neither the surfactant nor the polymer has when present alone. Greater efficiency in these mixture systems would both reduce consumption and decrease pollution. The unusual efficiency and versatility of gemini surfactants offer the possibility of developing much more efficient and functional surfactant/polymer systems. Therefore, the interactions between gemini surfactants and polymers （containing polyelectrolytes, nonionic polymers, and hydrophobically modified polymers） have attracted considerable attention. It is important to systematically characterize the interactions between gemini surfactants and polymers, which can offer effective guidance to design the surfactant/polymer mixtures with desired properties by using such highly efficient surfactants. Here, we summarize the systems investigated in our laboratory, combined with the studies from other researchers, to give a comprehensive review on research progress of gemini surfactant/polymer interactions. This review wi