Affiliation:
1. Advanced Polymer Laboratory Department of Polymer Science and Technology Government College of Engineering and Leather Technology (Post Graduate) Maulana Abul Kalam Azad University of Technology, Salt Lake City Kolkata West Bengal 700106 India
2. Pakuahat A. N. M. High School Malda West Bengal 732138 India
3. Department of Chemistry College of Science King Saud University Riyadh 11451 P.O. Box 2455 Saudi Arabia
4. Department of Polymer Engineering, Graduate School Chonnam National University Gwangju 61186 South Korea
5. Electrochemistry & Catalysis Research Laboratory (ECRL) Department of Chemistry School of Physical Sciences Shahjalal University of Science and Technology Sylhet 3114 Bangladesh
6. Department of Leather Technology, Government College of Engineering and Leather Technology (Post Graduate) Maulana Abul Kalam Azad University of Technology, Salt Lake City Kolkata West Bengal 700106 India
Abstract
AbstractHerein, fluorescent conducting tautomeric polymers (FCTPs) are developed by polymerizing 2‐methylprop‐2‐enoic acid (MPEA), methyl‐2‐methylpropenoate (MMP), N‐(propan‐2‐yl)prop‐2‐enamide (PPE), and in situ‐anchored 3‐(N‐(propan‐2‐yl)prop‐2‐enamido)‐2‐methylpropanoic acid (PPEMPA). Among as‐synthesized FCTPs, the most promising characteristics in FCTP3 are confirmed by NMR and Fourier transform infrared (FTIR) spectroscopies, luminescence enhancements, and computational studies. In FCTP3, ─C(═O)NH─, −C(═O)N<, ─C(═O)OH, and ─C(═O)OCH3 subluminophores are identified by theoretical calculations and experimental analyses. These subluminophores facilitate redox characteristics, solid state emissions, aggregation‐enhanced emissions (AEEs), excited‐state intramolecular proton transfer (ESIPT), and conductivities in FCTP3. The ESIPT‐associated dual emission/AEEs of FCTP3 are elucidated by time correlated single photon counting (TCSPC) investigation, solvent polarity effects, concentration‐dependent emissions, dynamic light scattering (DLS) measurements, field emission scanning electron microscopy images, and computational calculations. The cyclic voltammetry measurements of FCTP3 indicate cumulative redox efficacy of ─C(═O)OH, ─C(═O)NH─/−C(═O)N<, ─C(─O─)═NH+─/─C(─O─)═N+, and ─C(═N)OH functionalities. In FCTP3, ESIPT‐associated dual‐emission enable in the selective detection of Cr(III)/Cu(II) at λem1/λem2 with the limit of detection of 0.0343/0.079 ppb. The preferential interaction of Cr(III)/Cu(II) with FCTP3 (amide)/FCTP3 (imidol) and oxidation/reduction of Cr(III)/Cu(II) to Cr(VI)/Cu(I) are further supported by NMR‐titration; FTIR and X‐ray photoelectron spectroscopy analyses; TCSPC/electrochemical/DLS measurement; alongside theoretical calculations. The proton conductivity of FCTP3 is explored by electrochemical impedance spectroscopy and I–V measurements.
Funder
King Saud University
University Grants Commission
Council of Scientific and Industrial Research, India