Cl 4 Ti R CH2 CH2 Cl 4 Ti CH2 CH2 R Cl 4 Ti CH2 CH2 R H2 C CH2 Cl 4 Ti (CH2 CH2 ) 2 R Cl 4 Ti CH2 CH2 R ' Ziegler-Natta catalyst: mechnsim?
Cl 4 Ti R CH2 CH2 Cl 4 Ti CH2 CH2 R Cl 4 Ti CH2 CH2 R H2 C CH2 Cl 4 Ti (CH2 CH2 ) 2 R Cl 4 Ti CH2 CH2 R ' Ziegler-Natta catalyst: mechnsim?
[(CPh】Ti-单体→[(CP)]Ti-Rt[(CP)】Ti-R R 单体 (CP)】Tit[(CP)lTi-单体 Ri R山
❖ Enzyme and other traditional chemical catalyst. ❖ If they exhibit high specificity, selectivity, yield and atom economy, they should be considered as the molecular machine with special functions in chemical reactions. Catalyst has been called as molecular machine
❖ Enzyme and other traditional chemical catalyst. ❖ If they exhibit high specificity, selectivity, yield and atom economy, they should be considered as the molecular machine with special functions in chemical reactions. Catalyst has been called as molecular machine
Chapter 5 Techniques in Green Chemistry ❖ 5.1 The performance of Catalysts in Chemical reaction ❖ 5.2 Green Chemistry and Catalysis ❖ 5.3 The Design of High Efficient and Safe Catalyst ❖ 5.4 Changing Starting Material for Chemical reaction ❖ 5.5 Changing Reagents ❖ 5.6 Changing the solvent of Chemical Reaction ❖ 5.7 Process Control and Process Intensification ❖ References
Chapter 5 Techniques in Green Chemistry ❖ 5.1 The performance of Catalysts in Chemical reaction ❖ 5.2 Green Chemistry and Catalysis ❖ 5.3 The Design of High Efficient and Safe Catalyst ❖ 5.4 Changing Starting Material for Chemical reaction ❖ 5.5 Changing Reagents ❖ 5.6 Changing the solvent of Chemical Reaction ❖ 5.7 Process Control and Process Intensification ❖ References
5.2 Green Chemistry and Catalysis
5.2 Green Chemistry and Catalysis