Eco-friendly versatile shielding revolution: Tannin tailored bamboo waste composite with wave-absorbing, flame retardancy, and antibacterial abilities.

The swift evolution of fifth-generation technology has intensified the need for lightweight, high-efficiency, and low-reflection multifunctional electromagnetic interference shielding materials, crucial in combating escalating electromagnetic pollution in complex application environments. To tackle these challenges, an innovative solution has emerged: a biocomposite crafted from discarded bamboo materials. This innovation incorporates a meticulously engineered functional coating composed of tannic acid, boric acid, and polyvinyl alcohol. Additionally, the integration of highly conductive TiCT (MXene) nanosheets onto the surface of bamboo powders enhances the EMI shielding efficiency of composites, achieving an impressive ∼40.9 dB. Meanwhile, significant improvements in mechanical reinforcement have been achieved, along with increases in the relative values of key performance indicators: tensile strength (89.8 %), tensile modulus (79.6 %), flexural strength (51.6 %), flexural modulus (35.1 %), and impact strength (45.4 %). Furthermore, the introduction of functional components grants the composite exceptional flame retardancy and antibacterial properties against both Gram-negative and Gram-positive bacteria. Beyond these strides, the utilization of bamboo waste as a composite pioneer a paradigm shift in waste utilization, converting refuse into invaluable resources.