Authors Railian, S; Haven, JJ; Maes, L; De Sloovere, D; Trouillet, V; Welle, A; Adriaensens, P; Van Bael, MK; Hardy, A; Deferme, W; Junkers, T in PERGAMON-ELSEVIER SCIENCE LTD published article about TRANSFER RADICAL POLYMERIZATION; CARBON NANOTUBES; CLICK CHEMISTRY; DISPERSED GRAPHENE; ORGANIC-SYNTHESIS; VISIBLE-LIGHT; SURFACE; NANOCOMPOSITES; NANOPARTICLES; BRUSHES in [Railian, Svitlana; Maes, Lowie; Junkers, Tanja] UHasselt Inst Mat Res, Polymer React Design Grp, Agoralaan, B-3590 Diepenbeek, Belgium; [Haven, Joris J.; Junkers, Tanja] Monash Univ, Sch Chem, 19 Rainforest Walk, Clayton, Vic 3800, Australia; [De Sloovere, Dries; Van Bael, Marlies K.; Hardy, An] UHasselt Inst Mat Res, Inorgan & Phys Chem, Agoralaan, B-3590 Diepenbeek, Belgium; [De Sloovere, Dries; Van Bael, Marlies K.; Hardy, An] Energyville, Thor Pk 8320, B-3600 Genk, Belgium; [De Sloovere, Dries; Adriaensens, Peter; Van Bael, Marlies K.; Hardy, An; Deferme, Wim] IMEC Vzw Div IMOMEC, Wetenschapspk 1, B-3590 Diepenbeek, Belgium; [Trouillet, Vanessa] Karlsruhe Inst Technol KIT, Inst Appl Mat IAM, Hermann von Helmholtz Pl 1, D-76344 Eggenstein Leopoldshafen, Germany; [Trouillet, Vanessa; Welle, Alexander] Karlsruhe Inst Technol KIT, Karlsruhe Nano Micro Facil KNMF, Hermann von Helmholtz Pl 1, D-76344 Eggenstein Leopoldshafen, Germany; [Welle, Alexander] Karlsruhe Inst Technol KIT, Inst Funct Interfaces, Hermann von Helmholtz Pl 1, D-76344 Eggenstein Leopoldshafen, Germany; [Adriaensens, Peter] UHasselt Inst Mat Res, Nucl Magnet Resonance Spect Grp, Agoralaan, B-3590 Diepenbeek, Belgium; [Deferme, Wim] UHasselt Inst Mat Res, Wetenschapspk 1, B-3590 Diepenbeek, Belgium in 2020.0, Cited 84.0. Computed Properties of C8H11NO. The Name is 2-(4-Aminophenyl)ethanol. Through research, I have a further understanding and discovery of 104-10-9
The preparation of well-dispersed graphene/polymer nanocomposites is challenging due to the poor miscibility of graphene sheets in a polymer matrix. To enhance the interaction between both phases, graphene sheets can be decorated with polymer chains. Herein, different strategies to graft poly(methyl methacrylate) (PMMA) and poly(di(ethylene glycol) ethyl ether acrylate) (PDEGA) chains at various positions on graphene oxide and reduced graphene oxide (GO/rGO) sheets are compared. Chain attachment was achieved by grafting-to and grafting-from methods. Grafting-to was performed by classical copper (I)-catalyzed alkyne azide cycloaddition. Using a grafting-from approach, PMMA and PDEGA brushes were grown from GO and rGO sheets via surface-initiated photo-induced copper-mediated polymerization (SI-photoCMP). SI-photoCMP is a robust and efficient method that allows polymerizations to be carried out under mild conditions and with reduced catalyst concentration. Moreover, the successful implementation of SI-photoCMP in a continuous-flow set-up enables easy upscaling of the system and is, therefore, a more efficient and environmentally friendly process for GO/rGO surface modification. By using the grafting-to approach, the grafting density of PMMA (M-n = 2,600 g/mol) was one chain per 990 carbons of graphene. In contrast, longer PMMA chains (M-n = 40,300 g/mol) and higher grafting density were obtained via the grafting-from method (one PMMA chain per 140 carbons of graphene).
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Reference:
Amide – Wikipedia,
,Amide – an overview | ScienceDirect Topics