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Molecular Engineering of a SICTERS Small Molecule with Superior <i>In Vivo</i> Raman Imaging and Photothermal Performance

Yongming Zhang, Wenxian Zhang, Yuanyuan Qiu, Kai Cui, Xinyi Li, Hao Wei, Aoxiang Luo, Zeyu Xiao

2025Journal of the American Chemical Society23 citationsDOI

Abstract

Raman-based theranostics has demonstrated great potential for sensitive real-time imaging and treatment. However, these advanced materials, primarily depending on the SERS technique, encounter clinical concerns regarding substrate biosafety. Herein, we molecularly engineered a de novo substrate-free SICTERS small molecule, namely BTT–TPA (bis-thienyl-substituted benzotriazole selenadiazole derivative structures), possessing both ultrasensitive Raman signals and excellent photothermal effects based on self-stacking. The mechanistic studies confirm that BTT maintains the planar structure with polycyclic distorted vibrations required for SICTERS. TPA enhances the donor–acceptor interaction, yielding a Raman sensitivity of BTT higher than previously reported SICTERS molecules; it also acts as a molecular rotor, increasing the photothermal conversion efficiency to 67.44%, which is superior to most of the existing SERS-based photothermal materials. In the tumor model of mouse orthotopic colon cancer, BTT–TPA NPs demonstrate a great Raman imaging-guided photothermal therapy effect in eliminating primary and metastatic tumors, remarkably decreasing the recurrence rate. This work puts forward substrate-free SICTERS small molecules toward Raman-based theranostic applications in vivo .

Topics & Concepts

ChemistryPhotothermal therapyIn vivoRaman spectroscopyMoleculeNanotechnologyBiophysicsOpticsOrganic chemistryMaterials scienceBiologyPhysicsBiotechnologyGold and Silver Nanoparticles Synthesis and ApplicationsNanoplatforms for cancer theranosticsSpectroscopy Techniques in Biomedical and Chemical Research
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