Abstract

Graphene-based hybrid nanomaterials are interestingly being considered in expanding fields such as supercapacitors, biosensors, biomedicine, and pathogen deactivation. Surface properties of the two-dimensional (2D) hybrids are crucial in dictating their safety and efficacy. Therefore, concise and accurate functionalization of the pristine 2D nanomaterials is very important for facilitating their clinical trials. In this case, some of the promising candidates for effective and controllable functionalization of graphene derivatives are dendrimers and hyperbranched polymers because of their high density of tunable functional moieties and their ability to interact with biosystems. Herein, we have reviewed recent advances on designing graphene-dendritic polymer hybrids and their applications together with the challenges in the field.

Graphic abstract

中文翻译：

---

石墨烯-树突状聚合物杂化物：合成，性质和应用

摘要

有趣的是，基于石墨烯的杂化纳米材料正在扩展领域，例如超级电容器，生物传感器，生物医学和病原体失活。二维（2D）杂化体的表面特性对于决定其安全性和功效至关重要。因此，原始2D纳米材料的简洁，准确的功能化对于促进其临床试验非常重要。在这种情况下，树枝状聚合物和超支化聚合物是石墨烯衍生物有效且可控制的功能化的一些有前途的候选者，因为它们具有可调功能部分的高密度以及与生物系统相互作用的能力。在本文中，我们回顾了设计石墨烯-树突状聚合物杂化物及其应用的最新进展以及本领域中的挑战。

图形摘要