Metallically gradated silicon nanowire and palladium nanoparticle composites as robust hydrogenation catalysts | Communications Chemistry
Figure 2 from Self-assembled poly(imidazole-palladium): highly active, reusable catalyst at parts per million to parts per billion levels. | Semantic Scholar
A Convoluted Polymeric Imidazole Palladium Catalyst: Structural Elucidation and Investigation of the Driving Force for the Efficient Mizoroki–Heck Reaction | Request PDF
A Convoluted Polymeric Imidazole Palladium Catalyst: Structural Elucidation and Investigation of the Driving Force for the Effic
UOZUMI Group Publications
UOZUMI Group Publications
A Highly Active and Reusable Self‐Assembled Poly(Imidazole/Palladium) Catalyst: Allylic Arylation/Alkenylation - Sarkar - 2011 - Angewandte Chemie International Edition - Wiley Online Library
Metallically gradated silicon nanowire and palladium nanoparticle composites as robust hydrogenation catalysts | Communications Chemistry
A Convoluted Polymeric Imidazole Palladium Catalyst: Structural Elucidation and Investigation of the Driving Force for the Effic
Self-assembled poly(imidazole-palladium): highly active, reusable catalyst at parts per million to parts per billion levels. | Semantic Scholar
Exploring the coordination confinement effect of divalent palladium/zero palladium doped polyaniline-networking: As an excellent-performance nanocomposite catalyst for C-C coupling reactions - J. Catal. - X-MOL
Metallically gradated silicon nanowire and palladium nanoparticle composites as robust hydrogenation catalysts | Communications Chemistry
A Convoluted Polymeric Imidazole Palladium Catalyst: Structural Elucidation and Investigation of the Driving Force for the Effic
A Convoluted Polymeric Imidazole Palladium Catalyst: Structural Elucidation and Investigation of the Driving Force for the Effic
A Convoluted Polymeric Imidazole Palladium Catalyst: Structural Elucidation and Investigation of the Driving Force for the Effic
RESEACH ACHIEVEMENT | グリーンナノ触媒研究チーム Green Nanocatalysis Research Team, RIKEN CSRS
A Convoluted Polymeric Imidazole Palladium Catalyst: Structural Elucidation and Investigation of the Driving Force for the Effic
A Convoluted Polymeric Imidazole Palladium Catalyst: Structural Elucidation and Investigation of the Driving Force for the Efficient Mizoroki–Heck Reaction - Sato - 2015 - ChemCatChem - Wiley Online Library
Self-assembled poly(imidazole-palladium): highly active, reusable catalyst at parts per million to parts per billion levels. | Semantic Scholar
A Convoluted Polymeric Imidazole Palladium Catalyst: Structural Elucidation and Investigation of the Driving Force for the Effic
A Convoluted Polymeric Imidazole Palladium Catalyst: Structural Elucidation and Investigation of the Driving Force for the Effic
A Convoluted Polymeric Imidazole Palladium Catalyst: Structural Elucidation and Investigation of the Driving Force for the Efficient Mizoroki–Heck Reaction | Request PDF
Self-assembled poly(imidazole-palladium): highly active, reusable catalyst at parts per million to parts per billion levels. | Semantic Scholar
A Convoluted Polyvinylpyridine‐Palladium Catalyst for Suzuki‐Miyaura Coupling and C−H Arylation - Ohno - - Advanced Synthesis & Catalysis - Wiley Online Library
A Convoluted Polymeric Imidazole Palladium Catalyst: Structural Elucidation and Investigation of the Driving Force for the Effic
A Convoluted Polymeric Imidazole Palladium Catalyst: Structural Elucidation and Investigation of the Driving Force for the Effic
A Convoluted Polymeric Imidazole Palladium Catalyst: Structural Elucidation and Investigation of the Driving Force for the Efficient Mizoroki–Heck Reaction | Request PDF
Metallically gradated silicon nanowire and palladium nanoparticle composites as robust hydrogenation catalysts | Communications Chemistry
UOZUMI Group Publications
