MRS Bulletin

Functionalities

Biological interactions and safety of graphene materials

Ashish C. Jachaka1, Megan Creightona2, Yang Qiua3, Agnes B. Kanea4 and Robert H. Hurta5

a1 Department of Pathology and Laboratory Medicine, Brown University; Ashish_Jachak@brown.edu

a2 School of Engineering, Brown University; Megan_Creighton@brown.edu

a3 School of Engineering, Brown University; Yang_Qiu@brown.edu

a4 Department of Pathology and Laboratory Medicine, Brown University; Agnes_Kane@brown.edu

a5 School of Engineering and Institute for Molecular and Nanoscale Innovation, Brown University; Robert_Hurt@brown.edu

Abstract

As graphene technologies progress to commercialization and large-scale manufacturing, issues of material and processing safety will need to be more seriously considered. The single word “graphene” actually represents a family of related materials with large variations in number of layers, surface area, lateral dimensions, stiffness, and surface chemistry. Many of these materials have aerodynamic diameters below 5 μm and can potentially be inhaled into the human lung. Graphene materials show several unique modes of interaction with biological molecules, tissues, and cells. The limited literature suggests that graphene materials can be either benign or harmful and that the biological response varies according to a material’s physicochemical properties and biologically effective dose. The present article reviews the current literature on the graphene–biological interface with an emphasis on the mechanisms and fundamental biological responses relevant to material safety and also to potential biomedical applications

Key Words:

  • C (27);
  • biomedical (180);
  • adsorption (248);
  • nanoscale (137)
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