Bertini Federica, Glatz Mathias, Gorgas Nikolaus, Stöger Berthold, Peruzzini Maurizio, Veiros Luis F, Kirchner Karl, Gonsalvi Luca
Consiglio Nazionale delle Ricerche (CNR) , Istituto di Chimica dei Composti Organometallici (ICCOM) , Via Madonna del Piano 10 , 50019 Sesto Fiorentino , Firenze , Italy . Email:
Institute of Applied Synthetic Chemistry , Vienna University of Technology , Getreidemarkt 9/163-AC , A-1060 Wien , Austria . Email:
Chem Sci. 2017 Jul 1;8(7):5024-5029. doi: 10.1039/c7sc00209b. Epub 2017 May 4.
The catalytic reduction of carbon dioxide is of great interest for its potential as a hydrogen storage method and to use carbon dioxide as C-1 feedstock. In an effort to replace expensive noble metal-based catalysts with efficient and cheap earth-abundant counterparts, we report the first example of Mn(i)-catalysed hydrogenation of CO to HCOOH. The hydride Mn(i) catalyst [Mn(PNP-Pr)(H)(CO)] showed higher stability and activity than its Fe(ii) analogue. TONs up to 10 000 and quantitative yields were obtained after 24 h using DBU as the base at 80 °C and 80 bar total pressure. At catalyst loadings as low as 0.002 mol%, TONs greater than 30 000 could be achieved in the presence of LiOTf as the co-catalyst, which are among the highest activities reported for base-metal catalysed CO hydrogenations to date.
二氧化碳的催化还原因其作为储氢方法的潜力以及将二氧化碳用作C-1原料而备受关注。为了用高效且廉价的储量丰富的地球元素催化剂替代昂贵的贵金属基催化剂,我们报道了首例锰(I)催化CO加氢生成HCOOH的反应。氢化物锰(I)催化剂[Mn(PNP-Pr)(H)(CO)]比其铁(II)类似物表现出更高的稳定性和活性。在80℃、总压80 bar条件下,以DBU为碱,反应24小时后得到高达10000的TON值和定量产率。在低至0.002 mol%的催化剂负载量下,在LiOTf作为助催化剂存在的情况下,TON值可大于30000,这是迄今为止报道的碱金属催化CO加氢反应中活性最高的之一。
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