Bhalerao, S.; Patil, J.; Mansuri, A. K.; Jain, S.; Kosara, S.; Prakash, G.; Kumar, D. A.; Bhatia, D. D.

Red-emitting carbon quantum dots were synthesised for the first time from aqueous leaf extracts of Hamelia patens through single-step, reagent free microwave-assisted carbonisation (750 W). The resulting nanoparticles displayed a narrow hydrodynamic size distribution centred at 3.9 nm, consistent with atomic force microscopy measurements showing a maximum height of 2.81 nm. Under 400 nm excitation, the CQDs exhibited a characteristic red emission maximum at 675 nm, representing a rare example of long-wavelength-emitting green CQDs derived from plant biomass. X-ray photoelectron spectroscopy (XPS) indicated a carbon-rich composition (C: 67.24%, O: 31.25%, N: 1.52%) with prominent C-O (42.67%) and C-C/C=C (42.64%) contributions. ATR-FTIR further confirmed the retention of hydroxyl, ether, and aliphatic functionalities following carbonisation. The excitation-wavelength-independent emission peak position implicates discrete surface molecular states rather than a heterogeneous distribution of emitters. Confocal microscopy demonstrates concentration-dependent cytoplasmic accumulation and selective perinuclear localization . In vivo biodistribution in zebrafish larvae confirms systemic uptake with statistically significant fluorescence enhancement , establishing HP-CQDs as biocompatible red-fluorescent probes with dual imaging-antioxidant functionality.