Basic sites on the oxide surfaces: their effect on the catalytic methane coupling

## Abstract Recent results on surface reaction steps in the oxidative coupling of methane (OCM) obtained from (1) transient experiments and (2) a microkinetic analysis are summarized. The interaction of methane and oxygen with MgO and Sm~2~O~3~ surfaces was investigated by applying H/D‐ and oxygen‐

Deposition of LiÈMgO catalyst on commonly used supports (containing SiC, etc.) causes a drastic reduction in SiO 2 , Al 2 O 3 , ZrO 2 , HfO 2 , the catalytic activity/selectivity for the oxidative methane coupling reaction and also in both the total and strong surface basicity. The decrease in the

The reaction mechanism of the oxidative coupling of methane (OCM) has attracted world wide attention. In this paper a series of catalysts modified by Li +, Na ÷ containing superionic conductors or solid electrolytes have been tested for the OCM. It was observed that the addition of A2BO4 (A: Li ÷, N

## Photolysis of iron carbonyls adsorbed on various types of silica was investigated by IR spectroscopy_ While the photolysis of Fe(C0)5 led to the selective formation of Fe,(CO)l, on any silica samples, the hydride species [HFe,(CO),,]-was formed to some extent on one of the samples (denoted samp