Synthesis of Nonaromatic Macromolecular Luminogens, DFT Studies on Photophysics, and O‐Donor Selective On−Off Sensors: Contributions of In Situ N‐(Methylol)Acrylamido Comonomers

The development of intrinsically luminescent multifunctional macromolecules and understanding their fluorescence characteristics are highly desirable to broaden further the scope of nontraditional macromolecular luminogens. Here, two nontraditional macromolecular luminogens, such as 2‐(methacryloylo...

Full description

Saved in:
Bibliographic Details
Published in:Advanced optical materials 2021-11, Vol.9 (21), p.n/a
Main Authors: Dutta, Arnab, Mahapatra, Manas, Sanfui, MD Hussain, Ghosh, Narendra Nath, Chattopadhyay, Pijush Kanti, Singha, Nayan Ranjan
Format: Article
Language:English
Subjects:
Aqueous solutions
computational analyses
Density functional theory
Ethanol
Fluorescence
Hydrogen bonding
Inclusions
Macromolecules
Materials science
nontraditional fluorescent macromolecules
Optics
O‐donors selective binding
Photoelectrons
reduced density gradient (RDG)
Spectrum analysis
Succinic acid
tertiary amides
Citations: Items that this one cites
Items that cite this one
Online Access:Get full text
Tags: Add Tag
No Tags, Be the first to tag this record!
Description
Summary:The development of intrinsically luminescent multifunctional macromolecules and understanding their fluorescence characteristics are highly desirable to broaden further the scope of nontraditional macromolecular luminogens. Here, two nontraditional macromolecular luminogens, such as 2‐(methacryloyloxy)ethanol‐co‐2‐hydroxyethyl 3‐(N‐(methylol)acrylamido)‐2‐methylpropanoate‐co‐N‐(methylol)‐2‐propenamide (MAE‐co‐HENMAMMP‐co‐NMPA, ML1) and 2‐methylenesuccinic acid‐co‐2‐((N‐(methylol)acrylamido)methyl)succinic acid‐co‐N‐(methylol)‐2‐propenamide (MSA‐co‐NMAMMSA‐co‐NMPA, ML2) are synthesized via in situ inclusions of N‐(methylol)acrylamido‐ester and N‐(methylol)acrylamido‐acid comonomers by the polymerization of two synthetic monomers. These luminogens are suitable for sensing alongside exclusion of paramagnetic ions, i.e., Cu(II) and Fe(III). The structures of ML1 and ML2, in situ protruded HENMAMMP/NMAMMSA, and aggregation‐enhanced emissions (AEEs) are explored thoroughly. The through‐space electronic interactions from n/π of HENMAMMP + NMPA and NMAMMSA + MSA fragments to π* of HENMAMMP + MAE and NMAMMSA in ML1 and ML2, respectively, and hydrogen bonding among >CON− of HENMAMMP and −CONH− of NMPA in ML1 and −COOH/−COOH of MSA and −COOH/−CH2OH of NMAMMSA in ML2 collectively form clusteroluminogens, comprehended by reduced density gradient (RDG) calculations. The O‐donor selective coordinative interactions of paramagnetic Cu(II) and Fe(III) and substantial adsorption from aqueous solutions (concentrated) are analyzed through X‐ray photoelectron spectroscopy (XPS) spectra and density functional theory (DFT) studies of ML1/ML2 and Cu(II)‐ML1/Fe(III)‐ML2. Here, two nontraditional macromolecular luminogens are prepared via in situ inclusions of N‐(methylol)acrylamido‐ester and N‐(methylol)acrylamido‐acid comonomers for sensing and exclusion of Cu(II)/Fe(III). The fluorescence mechanisms are thoroughly explored to broaden the scope of nontraditional luminogens. Reduced density gradient analyses envisage the roles of hydrogen‐bonding toward formation of clusteroluminogens. The O‐donor selective coordinations are analyzed via X‐ray photoelectron spectroscopy (XPS) and density functional theory (DFT) analyses.
ISSN:2195-1071
2195-1071
DOI:10.1002/adom.202100802