Development of Nickel-on-Charcoal as a ``Dirt-Cheap'' Heterogeneous Catalyst: A Personal Account
| dc.contributor.author | Bruce H. Lipshutz | |
| dc.date.accessioned | 2012-11-20T13:49:27Z | |
| dc.date.accessioned | 2025-02-17T14:02:11Z | |
| dc.date.available | 2012-11-20T13:49:27Z | |
| dc.date.issued | 2012-11-20 | |
| dc.description | A personal account tracing the origins and continuing evolution of nickel-on-charcoal (Ni/C) as a practical, alternative, group 10 metal catalyst is presented. Discussed are applications to several ``name reactions'' which lead to both carbon ±carbon and carbon±nitrogen bond constructions utilizing inexpensive aryl chlorides as substrates. Reductions of chloroarenes are also catalyzed by Ni/C, a process which may be worthy of consideration in terms of environmental cleanup of PCBs and dioxins. Collaborative efforts are also mentioned aimed at probing the surface structure of Ni/C, with the goal of enhancing catalyst activity. Future directions for development of heterogeneous nickel catalysts are proposed. 1 Introduction: Nickel-on-Charcoal? Never Heard of It . . . 2 Mixing a Ni(II) Salt with Charcoal: Getting It to `Stick' and Reduction to Ni(0) 3 First Results: Negishi-Like Couplings with Functionalized Zinc Reagents 4 Is Ni/C Compatible with Grignard Reagents? Kumada- Like Couplings 5 Suzuki Couplings with Aryl Chlorides: Ni/C Takes the Challenge 6 Aminations of Aryl Chlorides: and the `Magic' Phosphine Ligand is. . . 7 Reductive Dechlorinations of Aryl Chlorides: Searching for a Mild Source of Hydride 8 What Does ªNi/Cº Really Look Like? Surface Science to the Rescue 9 Summary . . . and a Look Ahead | en_US |
| dc.description.abstract | A personal account tracing the origins and continuing evolution of nickel-on-charcoal (Ni/C) as a practical, alternative, group 10 metal catalyst is presented. Discussed are applications to several ``name reactions'' which lead to both carbon ±carbon and carbon±nitrogen bond constructions utilizing inexpensive aryl chlorides as substrates. Reductions of chloroarenes are also catalyzed by Ni/C, a process which may be worthy of consideration in terms of environmental cleanup of PCBs and dioxins. Collaborative efforts are also mentioned aimed at probing the surface structure of Ni/C, with the goal of enhancing catalyst activity. Future directions for development of heterogeneous nickel catalysts are proposed. 1 Introduction: Nickel-on-Charcoal? Never Heard of It . . . 2 Mixing a Ni(II) Salt with Charcoal: Getting It to `Stick' and Reduction to Ni(0) 3 First Results: Negishi-Like Couplings with Functionalized Zinc Reagents 4 Is Ni/C Compatible with Grignard Reagents? Kumada- Like Couplings 5 Suzuki Couplings with Aryl Chlorides: Ni/C Takes the Challenge 6 Aminations of Aryl Chlorides: and the `Magic' Phosphine Ligand is. . . 7 Reductive Dechlorinations of Aryl Chlorides: Searching for a Mild Source of Hydride 8 What Does ªNi/Cº Really Look Like? Surface Science to the Rescue 9 Summary . . . and a Look Ahead | en_US |
| dc.identifier.uri | https://dl.ftveti.edu.et/handle/123456789/4233 | |
| dc.language.iso | en | en_US |
| dc.subject | aromatic aminations; aryl chlorides; biaryls; crosscouplings; heterogeneous catalysis; nickel- on-charcoal | en_US |
| dc.title | Development of Nickel-on-Charcoal as a ``Dirt-Cheap'' Heterogeneous Catalyst: A Personal Account | en_US |
| dc.type | Article | en_US |
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