# Grafting Carbon Fibers with Graphene via a One-Pot Aryl Diazonium Reaction to Refine the Interface Performance of T1100-Grade CF/BMI Composites

**Authors:** Weidong Li, Ziqi Duan, Mingchen Sun, Pengfei Shen, Huanzhi Yang, Xiangyu Zhong, Yang Zhang, Xiaolan Hu, Jianwen Bao

PMC · DOI: 10.3390/ma17133288 · Materials · 2024-07-03

## TL;DR

This study improves the performance of carbon fiber composites by grafting graphene onto carbon fibers using a simple chemical method.

## Contribution

A one-pot aryl diazonium reaction is introduced to covalently graft graphene onto carbon fibers without damaging them.

## Key findings

- The interfacial shear strength increased by 21.8% after graphene grafting.
- The tensile strength of carbon fibers remained unchanged after modification.
- Graphene grafting enhances chemical bonding and mechanical interlock with BMI resin.

## Abstract

In this study, a one-pot aryl diazonium reaction was used as a simple and mild method to graft graphene onto the smooth and inert surface of T1100-grade carbon fiber (CF) through covalent bonding without any damage on CF, to refine the interface performance of CF/bismaleimide (BMI) composites. XPS, SEM, AFM, and dynamic contact angle testing (DCAT) were used to characterize chemical activity, morphologies, and wettability on untreated and grafted CF surfaces. Meanwhile, the impact of the graft method on the tensile strength of CF was also examined using the monofilament tensile test. IFSS between CF grafted with graphene and BMI resin achieved 104.2 MPa after modification, increasing from 85.5 MPa by 21.8%, while the tensile strength did not decrease compared to the pristine CF. The mechanism of this interface enhancement might be better chemical bonding and mechanical interlock between CF grafted with graphene and BMI resin, which is generated from the high surface chemical activity and rough structure of graphene. This study may propose a simple and mild method to functionalize the CF surface and enhance the interface performance of composites without compromising the tensile properties of T1100-grade CF.

## Linked entities

- **Chemicals:** BMI (PubChem CID 2735673), graphene (PubChem CID 5462310)

## Full-text entities

- **Chemicals:** Graphene (MESH:D006108), Carbon (MESH:D002244), Aryl Diazonium (-), CF (MESH:D000077482)

## Full text

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## Figures

10 figures with captions in the complete paper: https://tomesphere.com/paper/PMC11243492/full.md

## References

37 references — full list in the complete paper: https://tomesphere.com/paper/PMC11243492/full.md

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Source: https://tomesphere.com/paper/PMC11243492