Trace-Level Humidity Sensing from Commercial Organic Solvents and Food Products by an AIE/ESIPT-Triggered Piezochromic Luminogen and ppb-Level “OFF–ON–OFF” Sensing of Cu²⁺: A Combined Experimental and Theoretical Outcome

Abstract: Selective and sensitive moisture sensors have attracted immense attention due to their ability to monitor the humidity content in industrial solvents, food products, etc., for regulating industrial safety management. Herein, a hydroxy naphthaldehyde-based piezochromic luminogen, namely, 1-{[(2-hydroxyphenyl)­imino]­methyl}­naphthalen-2-ol (NAP-1), has been synthesized and its photophysical and molecular sensing properties have been investigated by means of various spectroscopic tools. Owing to the synergistic … Show more

“… 38 − 40 Thus, it can be concluded that the IHB O 1 ···H 1 –N 1 is weakened at the S L state and verified that the reverse proton transfer (RPT) process prefers to proceed at the S 0 state. 41 Most notably, the relative ordering of the IHB intensity at S 0 and S L states for the three investigated compounds is as follows: HQ-k < HQS-k < HQSe-k. Based on the above analysis, it can be inferred that atomic electronegativity can alter the strength of IHB in the S 0 and S L states and thereby affect the proton transfer process of HQ. 41 …”

Theoretical Study on the Atom-Substituted Quinazoline Derivatives with Faint Emission as Potential Sunscreens

“… 38 − 40 Thus, it can be concluded that the IHB O 1 ···H 1 –N 1 is weakened at the S L state and verified that the reverse proton transfer (RPT) process prefers to proceed at the S 0 state. 41 Most notably, the relative ordering of the IHB intensity at S 0 and S L states for the three investigated compounds is as follows: HQ-k < HQS-k < HQSe-k. Based on the above analysis, it can be inferred that atomic electronegativity can alter the strength of IHB in the S 0 and S L states and thereby affect the proton transfer process of HQ. 41 …”

Theoretical Study on the Atom-Substituted Quinazoline Derivatives with Faint Emission as Potential Sunscreens

“…The proposed host–guest interaction mechanism may be explained in terms of different sensing ways that include photoinduced electron transfer (PET), resonance energy transfer (RET), and intermolecular charge transfers (ICT) pathways. − In the case of PET, the presence of a low lying vacant π* orbital is necessary to accept an excited state electron from the donor fluorophoric unit. − Therefore, PET plays a pivotal role in the quenching efficiency of a particular fluorophore toward a particular analyte. In this context, DFT studies have been performed in order to understand the HOMO–LUMO energy levels of phosphonate MOF (H 8 L-Ti-MOF) and other targeted analytes.…”

Novel Nanoporous Ti-Phosphonate Metal–Organic Framework for Selective Sensing of 2,4,6-Trinitrophenol and a Promising Electrode in an Energy Storage Device

“…34). All the probes (35)(36)(37)(38) the PET process from the -N centres of the chemosensor skeleton to the vacant orbital of Cu 2+ . Accordingly, the detection limits were found to be 0.12 Â 10 À6 M, 0.10 Â 10 À6 M, 0.097 Â 10 À6 M and 0.098 Â 10 À6 M for 35-38, respectively.…”

“…Banerjee et al 36 exhibited a fluorogenic sensory probe, 8 , which could selectively detect aqueous Cu 2+ with a detection threshold of 57.2 ppb. In MeOH/H 2 O (60% v/v), 8 remained in the aggregated state, which led to the generation of strong AIE and ESIPT-induced greenish-yellow fluorescence.…”

Recent endeavours in the development of organo chromo-fluorogenic probes towards the targeted detection of the toxic industrial pollutants Cu²⁺ and CN⁻: recognition to implementation in sensory device