2023
DOI: 10.1038/s41467-023-40259-0
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Electrochemical oxo-functionalization of cyclic alkanes and alkenes using nitrate and oxygen

Abstract: Direct functionalization of C(sp3)–H bonds allows rapid access to valuable products, starting from simple petrochemicals. However, the chemical transformation of non-activated methylene groups remains challenging for organic synthesis. Here, we report a general electrochemical method for the oxidation of C(sp3)–H and C(sp2)–H bonds, in which cyclic alkanes and (cyclic) olefins are converted into cycloaliphatic ketones as well as aliphatic (di)carboxylic acids. This resource-friendly method is based on nitrate … Show more

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Cited by 10 publications
(8 citation statements)
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“…Further research regarding the electrochemical stability of the fragments of AEPs under various electrode potentials and operating conditions needs to be explored. 129 In addition to strongly basic environments, AEMs are also used in strongly acidic environments. HT-PEMFC applications operate in a pH range of 1–3 at elevated temperatures of 100–200 °C, while RFB applications operate at a pH below 1.…”
Section: Perspective and Outlookmentioning
confidence: 99%
See 1 more Smart Citation
“…Further research regarding the electrochemical stability of the fragments of AEPs under various electrode potentials and operating conditions needs to be explored. 129 In addition to strongly basic environments, AEMs are also used in strongly acidic environments. HT-PEMFC applications operate in a pH range of 1–3 at elevated temperatures of 100–200 °C, while RFB applications operate at a pH below 1.…”
Section: Perspective and Outlookmentioning
confidence: 99%
“…For example, the electrochemical oxidation of cyclic alkanes and cyclic olefins, such as norbornene, occurs at approximately 1.0 V, resulting in the production of cycloaliphatic ketones and aliphatic (di)carboxylic acids. 129 The electrochemical oxidation of heterocycles occurs at around 1.5 V or higher, depending on the chemical environments. 130–132…”
Section: Chemical Stability Of Aepsmentioning
confidence: 99%
“…To date, various electrocatalysts including noble and nonnoble materials have been explored to catalyze OEOR. Noble metal-based electrocatalysts are mainly focused on the Pt, [40] Pd, [41,42] Ag, [43,44] Rh, [45] Ir [46] and Ru-based [47,48] compounds and single atom sites, [49,50] which have been demonstrated as efficient OEOR electrocatalysts with both high product selectivity and low anodic potential. However, its high price and element scarcity often make it challenging to be large-scale application.…”
Section: Introductionmentioning
confidence: 99%
“…In the past years, many works have demonstrated the role importance IME played in OEOR, [40,70,71] but how to rationally employ IME into the design of electrocatalyst is still challenging, especially for researchers who are new to this field. Hence, a timely review on IME of electrocatalysis and their OEOR applications is highly desired.…”
Section: Introductionmentioning
confidence: 99%
“…First, according to the proposal, 1-phenyl-1,2,3,4-tetrahydroisoquinoline ( 1a ) was protonated in the presence of an acid to form 1a-H + , which was oxidized via a single-electron transfer (SET) process at the anode to generate the radical-cationic intermediate I . Since use of other Brønsted acids such as acetic, trifluoroacetic and hydrochloric acids each resulted in lower yields (Table 1, entries 2–4), the NO 3 − species might serve as a more efficient oxidation mediator 18 for this SET process. After the loss of another electron and one proton, 2a-H + was formed, which was less prone to undergo further oxidation and could deliver 1-phenyl-3,4-dihydroisoquinoline ( 2a ) after a common workup.…”
mentioning
confidence: 99%