Polymerization Studies: Macromonomer Synthesis and Homopolymerization Kinetics
Explore the detailed processes of macromonomer synthesis and homopolymerization kinetics in polymer chemistry. Topics covered include various synthesis methods, copolymer synthesis studies, and self-assembly analysis, providing valuable insights into polymer science and technology.
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Presentation Transcript
Overall Organization CRIPT End-to-End Test Papers Reference to Xia et al. brushes Xia et al. brushes Macromonomer Synthesis Homopolymerization Kinetics Copolymer Synthesis Studies of Self-Assembly
Macromonomer Synthesis THF PMDETA CuBr PnBA Click coupling n-butyl acrylate ATRP Poly(n- butylacrylate) PnBA NB(PnBA)4.0k n-butyl acrylate azidification Methyl 2- bromopropionate PnBA NMR Norbornenyl alkyne Sodium azide dimethylformamide PnBA GPC THF PMDETA CuBr PtBA Click coupling t-butyl acrylate ATRP Poly(t- PtBA NB(PtBA)4.7k t-butyl acrylate azidification butylacrylate) Methyl 2- bromopropionate PtBA NMR Sodium azide Norbornenyl alkyne dimethylformamide PtBA GPC
Macromonomer Synthesis THF PMDETA CuBr PS 2.2 Click coupling Styrene 2.2 ATRP PS2.2 NB(PS)2.2k styrene Poly(styrene) 2.2 azidification Methyl 2- bromopropionate PS 2.2 NMR Norbornenyl alkyne Sodium azide dimethylformamide PS 2.2 GPC D,L-lactide LA 4.7 ring- opening polymerization PLA 4.7 NMR NB alcohol NB(PLA)4.7k PLA 4.7 GPC stannous octoate
Macromonomer Synthesis THF PMDETA CuBr PS 6.6 Click coupling Styrene 6.6 ATRP PS 6.6 azidification NB(PS)6.6k styrene Poly(styrene) 6.6 Methyl 2- bromopropionate PS 6.6 NMR Norbornenyl alkyne Sodium azide dimethylformamide PS 6.6 GPC D,L-lactide LA 7.0 ring- opening polymerization PLA 7.0 NMR NB alcohol NB(PLA)7.0k PLA 7.0 GPC stannous octoate
Homopolymerization Kinetics Homopolymerization Kinetics PnBA4.0k NB(PnBA)4.0k PS2.2k homopolymerization NB(PS)2.2k homopolymerization Ru Catalyst 1 Ru Catalyst 1 PnBA4.0k kinetics PS2.2k kinetics Tetrahydrofuran Tetrahydrofuran PtBA4.7k PLA4.7k PLA200 hompolymer NB(PtBA)4.7k NB(PLA)4.7k homopolymerization homopolymerization Ru Catalyst 1 Ru Catalyst 1 PtBA4.7k kinetics PLA4.7k kinetics Tetrahydrofuran Tetrahydrofuran
Homopolymerization Kinetics Homopolymerization Kinetics PS6.6k NB(PS)6.6k homopolymerization Ru Catalyst 1 PS6.6k kinetics Tetrahydrofuran PLA7.0k NB(PLA)7.0k homopolymerization Ru Catalyst 1 PLA7.0k kinetics Tetrahydrofuran
Copolymer Synthesis 1 of 8 Copolymer Synthesis NB(PS)6.6k g-[PS40-b-PnBA70] copolymerization g-[PS40-b-PnBA70] NB(PnBA)4.0k Ru Catalyst 1 g-[PS40-b-PnBA70] GPC Tetrahydrofuran NB(PS)6.6k g-[PS40-r- PnBA200] g-[PS40-r-PnBA200] copolymerization NB(PnBA)4.0k g-[PS40-r- PnBA200] GPC Ru Catalyst 1 Tetrahydrofuran
Copolymer Synthesis 2 of 8 Copolymer Synthesis NB(PtBA)4.7k g-[PtBA100-b- PnBA100] copolymerization g-[PtBA100-b- PnBA100] NB(PnBA)4.0k Ru Catalyst 1 g-[PtBA100-b-PnBA100] GPC Tetrahydrofuran NB(PtBA)4.7k g-[PtBA100-b- PnBA200] copolymerization g-[PtBA100-b- PnBA200] NB(PnBA)4.0k Ru Catalyst 1 g-[PtBA100-b-PnBA200] GPC Tetrahydrofuran
Copolymer Synthesis 3 of 8 Copolymer Synthesis NB(PS)2.2k g-[PS50-b-PtBA50] copolymerization g-[PS50-b-PtBA50] NB(PtBA)4.7k Ru Catalyst 1 g-[PS50-b-PtBA50] GPC Tetrahydrofuran NB(PS)2.2k g-[PS100-b- PtBA100] g-[PS100-b-PtBA100] copolymerization NB(PtBA)4.7k Ru Catalyst 1 g-[PS100-b-PtBA100] GPC Tetrahydrofuran
Copolymer Synthesis 4 of 8 Copolymer Synthesis NB(PLA)4.7k g-[PLA20-b- PnBA180] g-[PLA20-b-PnBA180] copolymerization NB(PnBA)4.0k Ru Catalyst 1 g-[PLA20-b-PnBA180] GPC Tetrahydrofuran NB(PLA)4.7k g-[PLA40-b- PnBA160] g-[PLA40-b-PnBA160] copolymerization NB(PnBA)4.0k Ru Catalyst 1 g-[PLA40-b-PnBA160] GPC Tetrahydrofuran
Copolymer Synthesis 5 of 8 Copolymer Synthesis NB(PLA)4.7k g-[PLA100-b- PnBA100] copolymerization g-[PLA100-b- PnBA100] NB(PnBA)4.0k Ru Catalyst 1 g-[PLA100-b-PnBA100] GPC Tetrahydrofuran NB(PLA)4.7k g-[PLA200-b- PnBA200] copolymerization g-[PLA200-b- PnBA200] NB(PnBA)4.0k Ru Catalyst 1 g-[PLA200-b-PnBA200] GPC Tetrahydrofuran
Copolymer Synthesis 6 of 8 Copolymer Synthesis NB(PLA)4.7k g-[PLA50-r- PnBA50] g-[PLA50-r-PnBA50] copolymerization NB(PnBA)4.0k Ru Catalyst 1 g-[PLA50-r-PnBA50] GPC Tetrahydrofuran NB(PLA)4.7k g-[PLA100-r- PnBA100] copolymerization g-[PLA100-r- PnBA100] NB(PnBA)4.0k Ru Catalyst 1 g-[PLA100-r-PnBA100] GPC Tetrahydrofuran
Copolymer Synthesis 7 of 8 Copolymer Synthesis NB(PLA)4.7k g-[PLA200-r- PnBA200] copolymerization g-[PLA200-r- PnBA200] NB(PnBA)4.0k Ru Catalyst 1 g-[PLA200-r-PnBA200] GPC Tetrahydrofuran NB(PLA)4.7k g-[PLA160-r- PnBA40] g-[PLA160-r-PnBA40] copolymerization NB(PnBA)4.0k Ru Catalyst 1 g-[PLA160-r-PnBA40] GPC Tetrahydrofuran
Copolymer Synthesis 8 of 8 Copolymer Synthesis NB(PLA)4.7k g-[PLA130-r- PnBA70] g-[PLA130-r-PnBA70] copolymerization NB(PnBA)4.0k Ru Catalyst 1 g-[PLA130-r-PnBA70] GPC Tetrahydrofuran
Self-Assembly Studies of Self-Assembly g-[PLA20-b-PnBA180] SAXS g-[PLA20-b- PnBA180] g-[PLA130-r-PnBA70] SAXS g-[PLA130-r- PnBA70] g-[PLA20-b-PnBA180] DSC g-[PLA130-r-PnBA70] DSC g-[PLA40-b-PnBA160] SAXS g-[PLA40-b- PnBA160] g-[PLA40-b-PnBA160] DSC g-[PLA160-r-PnBA40] SAXS g-[PLA160-r- PnBA40] g-[PLA100-b-PnBA100] SAXS g-[PLA100-b- PnBA100] g-[PLA160-r-PnBA40] DSC g-[PLA100-b-PnBA100] DSC
Self-Assembly Studies of Self-Assembly g-[PLA50-r-PnBA50] SAXS g-[PLA50-r- PnBA50] SAXS 1/I vs 1/T g-[PLA50-r- PnBA50] g-[PLA50-r-PnBA50] DSC g-[PLA50-r-PnBA50] AFM g-[PLA100-r- PnBA100] SAXS g-[PLA100-r- PnBA100] SAXS 1/I vs 1/T g-[PLA100-r- PnBA100] g-[PLA100-r- PnBA100] Single Mol. AFM g-[PLA100-r- PnBA100] DSC g-[PLA100-r- PnBA100] AFM
Self-Assembly Studies of Self-Assembly g-[PLA200-r- PnBA200] SAXS g-[PLA200-r- PnBA200] SAXS 1/I vs 1/T g-[PLA200-r- PnBA200] g-[PLA200-r- PnBA200] DSC g-[PLA200-r- PnBA200] AFM g-[PLA100-r- PnBA100] Single Mol. AFM PLA200 hompolymer g-[PLA200-b- PnBA200] Image g-[PLA200-b- PnBA200]
