Concentration oscillations in the oxidative carbonylation of non-1-yne in the PdI2-KI-CO-O2-CH3OH and PdI2-KI-CO-O2-phenylacetylene-CH3OH systems

“…12,13 Besides the sustained oscillations, the PCOC reaction has demonstrated a temperature-dependent product selectivity, which is potentially useful for industrial application due to a reduction of costs for isolation and purification, 14 applicable to a number of substrates, as demonstrated by Gorodsky. [15][16][17] Recently oscillations in pH were reported for PCOC, where an alkyne-functionalised polymeric substrate (poly(ethylene glycol)methyl ether acetylene, abbreviated as PEGA) was employed in place of PhAc, extending the opportunities of application of PCOC in smart materials. 13 Although the PCOC reaction in oscillatory mode has been studied in depth by Novakovic et al, Gorodsky and Temkin et al, the evidence for other palladium catalysts' activity displaying similar dynamics in this reaction system is lacking.…”

From small molecules to polymeric catalysts in the oscillatory carbonylation reaction: multiple effects of adding HI

“…12,13 Besides the sustained oscillations, the PCOC reaction has demonstrated a temperature-dependent product selectivity, which is potentially useful for industrial application due to a reduction of costs for isolation and purification, 14 applicable to a number of substrates, as demonstrated by Gorodsky. [15][16][17] Recently oscillations in pH were reported for PCOC, where an alkyne-functionalised polymeric substrate (poly(ethylene glycol)methyl ether acetylene, abbreviated as PEGA) was employed in place of PhAc, extending the opportunities of application of PCOC in smart materials. 13 Although the PCOC reaction in oscillatory mode has been studied in depth by Novakovic et al, Gorodsky and Temkin et al, the evidence for other palladium catalysts' activity displaying similar dynamics in this reaction system is lacking.…”

From small molecules to polymeric catalysts in the oscillatory carbonylation reaction: multiple effects of adding HI

“…Oscillatory reactions are considered to be a powerful avenue for a smart self-pulsatile polymeric systems, if coupled to the right pH-, redox-or thermo-responsive polymer or hydrogel for a grand number of potential biomimetic applications [1][2][3]. Of the reported oscillatory reactions [4][5][6][7][8], palladium-catalysed oxidative carbonylation (PCOC) of alkynes (Scheme 1) is attracting attention as one of the most versatile reactions, capable of producing sustained (for up to one month of monitoring) oscillations in pH, redox potential, turbidity, and heater power (measured by power compensation calorimetry), where the amplitude and period can be successfully regulated by adjusting the reactant composition or temperature [9][10][11][12][13][14][15][16].…”

Combining polymer-bound catalyst with polymeric substrate for reproducible pH oscillations in palladium-catalysed oxidative carbonylation of alkynes

Alternating catalytic reactions