Developing highly selective sensors for lipopolysaccharide (LPS) in plasma is vital for diagnosing sepsis since LPS is a significant cause of this condition. In this study, dansulfonyl derivatives were introduced as functional monomers in molecularly imprinted polymerization creatively, broadening the choice of functional monomers. The designed hydrophilic and hydrophobic functional monomers, tailored for polysaccharides and lipids of LPS, exhibited high selectivity, sensitivity, and biocompatibility with superior stability and reusability. The fluorescent sensor's limit of detection (LOD) was 0.46 µg/L with a linear response of 1–100 µg/L. The material's performance was compared to commercially available LPS detection kits. This study presents a viable method to fabricate molecularly imprinted fluorescent sensors that are highly responsive to LPS and can detect sepsis-inducing agents. Moreover, the designed sensors can potentially replace animal-derived reagents in LPS detection and can be applied to many solution systems.
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