A facile strategy for preparation of single-chain polymeric nanoparticles by intramolecular photo-crosslinking of azide polymers

“…[40] Additionally, Bai and coworkers displayed methylene protons next to nitrogen as the general expression with CH 2 -N due to the same reason. [41] In our study, 1 H NMR results showed that CH 2 -N 3 protons at 4.20 ppm disappeared and new protons appeared at 3.78 ppm resulted by photoinduced azide crosslinking. After first collapse of the precursor using azide crosslinking, resultant single chain nanoparticle was refolded via photoinduced radical coupling process in the presence of excess isopropyl alcohol as hydrogen donor.…”

“…According to the detailed study of Gudmundsdóttir on photolysis of azide compounds, a wide range of photoproducts are formed . Additionally, Bai and coworkers displayed methylene protons next to nitrogen as the general expression with CH 2 ‐N due to the same reason . In our study, 1 H NMR results showed that CH 2 ‐N 3 protons at 4.20 ppm disappeared and new protons appeared at 3.78 ppm resulted by photoinduced azide crosslinking.…”

Preparation of Single Chain Nanoparticles via Photoinduced Double Collapse Process

“…[40] Additionally, Bai and coworkers displayed methylene protons next to nitrogen as the general expression with CH 2 -N due to the same reason. [41] In our study, 1 H NMR results showed that CH 2 -N 3 protons at 4.20 ppm disappeared and new protons appeared at 3.78 ppm resulted by photoinduced azide crosslinking. After first collapse of the precursor using azide crosslinking, resultant single chain nanoparticle was refolded via photoinduced radical coupling process in the presence of excess isopropyl alcohol as hydrogen donor.…”

“…According to the detailed study of Gudmundsdóttir on photolysis of azide compounds, a wide range of photoproducts are formed . Additionally, Bai and coworkers displayed methylene protons next to nitrogen as the general expression with CH 2 ‐N due to the same reason . In our study, 1 H NMR results showed that CH 2 ‐N 3 protons at 4.20 ppm disappeared and new protons appeared at 3.78 ppm resulted by photoinduced azide crosslinking.…”

Preparation of Single Chain Nanoparticles via Photoinduced Double Collapse Process

“…[39][40][41][42][43] The growing interest in the area of repeat unit folding is demonstrated by the constant introduction of new and refi ned intrachain cross-linking procedures such as alkyne homocoupling, [ 44 ] oxidative polymerization, [ 45 ] thiol-ene coupling, [ 46 ] Michael addition, [47][48][49] amide formation, [ 50 ] tetrazine-norbornene reaction, [ 51 ] tetrazole-ene ligation, [ 52 ] thiol-yne coupling, [ 53 ] ring opening polymerization (ROP), [ 54,55 ] and photo-cross-linking of azides. [ 56 ] From these above examples it is already evident that repeat unit folding is simpler to implement, yet-as we will see-also less defi ned with regard to the achieved folding geometry, Macromol. Rapid Commun.…”

Single‐Chain Folding of Synthetic Polymers: A Critical Update

“…157−160 Relevant to this review, Li et al recently reported on the single-chain collapse of polystyrenes bearing pendant azide functionalities. 161 The precursor polymers were synthesized by RAFT-mediated copolymerization of 4-vinyl benzyl azide with styrene. Intramolecular cross-linking was carried out by irradiating a precursor chloroform solution (1 mg/mL) with UV light at 365 nm (Scheme 43).…”

Intramolecular Cross-Linking Methodologies for the Synthesis of Polymer Nanoparticles