Polarity-Independent Temperature-Induced Reversible Fluorescence Switching of Organic Nanoparticles: Application to Intracellular Temperature Imaging

Abstract: Carbazole-based amphiphilic molecules have been synthesized that can form fluorescent organic nanoparticles in the aqueous medium and generate distinct optical responses via restricted intermolecular rotation (RIR). The nanoparticles showed polarity-independent, reversible, fluorescence switching between cyan and blue on temperature change. Unlike other fluorescent systems, here we observe ratiometric, reversible response with temperature. Such kind of fluorescence intensity ratio measurement instead of analys… Show more

“…2d). 11,12 Additionally, dynamic light scattering experiments confirmed aggregate formation, revealing hydrodynamic diameters of 95 ± 12 nm for probe 1 and 220 ± 18 nm for probe 2 (Fig. 2a), while FESEM images displayed spherical aggregates for probe 1 and clumped rod-shaped aggregates for probe 2 (Fig.…”

Converging optical and electrochemical detection strategies for multimodal hydrazine sensing: insights into substituent-driven diverse response

“…2d). 11,12 Additionally, dynamic light scattering experiments confirmed aggregate formation, revealing hydrodynamic diameters of 95 ± 12 nm for probe 1 and 220 ± 18 nm for probe 2 (Fig. 2a), while FESEM images displayed spherical aggregates for probe 1 and clumped rod-shaped aggregates for probe 2 (Fig.…”

Converging optical and electrochemical detection strategies for multimodal hydrazine sensing: insights into substituent-driven diverse response

“…This indicated the protonation of pyridine nitrogens in the presence of HSO 4 À ions. [26] To confirm this, we further recorded the absorption spectrum of the compound in the presence of protic acids, such as HCl. A very similar absorption spectrum of 1, upon the addition of acid, corroborated the idea of bisulfate-induced protonation of pyridine nitrogens.…”

Sequence‐Specific Relay Recognition of Multiple Anions: An Interplay between Proton Donors and Acceptors

“…For instance, the fluorescent temperature probe ( 5 ), reported by Dey et al , incorporates carbazole-based amphiphilic molecules that can form nanoparticles in aqueous media at low temperatures. 39 As the temperature increases, the probe undergoes a transition from aggregates to monomers, and the rotational acceleration of piperazines leads to a decrease in fluorescence intensity. For a fluorescent temperature probe ( 6 ), Tang et al introduced a more hydrophilic oligo (ethylene glycol) methacrylate (OEGMA) into the polymer to finely adjust the hydrophilicity of the polymer.…”

Response strategies and biological applications of organic fluorescent thermometry: cell- and mitochondrion-level detection