2013
DOI: 10.1016/j.jcou.2013.07.002
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An electrochemical methodology for the cyclic CO2 “catch and release”. The role of the electrogenerated N-heterocyclic carbene in BMIm-BF4

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Cited by 29 publications
(32 citation statements)
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“…Moreover, this peculiar anodic peak is present both in pre-electrolyzed BMImBF4 (E < −1.9 V) and in DBU-BMImBF4 solution, being DBU a strong organic base (1,8-diazabicyclo[5.4.0]undec-7-ene). Therefore, NHC can be generated by both cathodic reduction and chemical deprotonation of NHCH + [31]. The NHC oxidation peak current increases on increasing the concentration of NHC, i.e., on increasing the concentration of added DBU or of the number of Faradays consumed during the electrolysis of BMImBF4, as expected.…”
Section: Electrodic Activity Of the System Nhch + /Nhcsupporting
confidence: 70%
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“…Moreover, this peculiar anodic peak is present both in pre-electrolyzed BMImBF4 (E < −1.9 V) and in DBU-BMImBF4 solution, being DBU a strong organic base (1,8-diazabicyclo[5.4.0]undec-7-ene). Therefore, NHC can be generated by both cathodic reduction and chemical deprotonation of NHCH + [31]. The NHC oxidation peak current increases on increasing the concentration of NHC, i.e., on increasing the concentration of added DBU or of the number of Faradays consumed during the electrolysis of BMImBF4, as expected.…”
Section: Electrodic Activity Of the System Nhch + /Nhcsupporting
confidence: 70%
“…This system is able to catch and release CO 2 cyclically and in mild conditions. After a single electrolysis, in a series of 10 cycles the solution (electrogenerated NHC in imidazolium salt as solvent) was able to catch and release 4 mol of CO 2 per Faradays consumed during the electrolysis [31]. These investigations, extended to different ionic liquids BMImX, proved that the rate of CO 2 capture is affected by the nature of the counter ion X − [39].…”
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confidence: 89%
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