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M158149-25mlMethyl Heptanoate.
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M158149-500mlMethyl Heptanoate.
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M298958-10mlMethyl hexacosanoate.
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M432979-100mgMethyl hexacosanoate.
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M112313-100mlHydrodeoxygenation of methyl hexanoate on commercial NiMo/γ-Al2O3 and CoMo/γ-Al2O3 hydro treatment catalysts in either oxide or sulphided form has been investigated. The oxidation of methyl hexanoate in a jet-stirred reactor has been studied.
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M112313-25mlHydrodeoxygenation of methyl hexanoate on commercial NiMo/γ-Al2O3 and CoMo/γ-Al2O3 hydro treatment catalysts in either oxide or sulphided form has been investigated. The oxidation of methyl hexanoate in a jet-stirred reactor has been studied.
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M112313-500mlHydrodeoxygenation of methyl hexanoate on commercial NiMo/γ-Al2O3 and CoMo/γ-Al2O3 hydro treatment catalysts in either oxide or sulphided form has been investigated. The oxidation of methyl hexanoate in a jet-stirred reactor has been studied.
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M333534-1gMethyl isopropyl carbonate.
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M102819-100mlIt is more easily oxidized than conjugated methyl linoleate. Methyl linoleate may be used as a model compound in oxidation/peroxidation assays to evaluate the anti-peroxidation activity of fullerenes, ellagitannins and other natural products. For
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M102819-1mlIt is more easily oxidized than conjugated methyl linoleate. Methyl linoleate may be used as a model compound in oxidation/peroxidation assays to evaluate the anti-peroxidation activity of fullerenes, ellagitannins and other natural products. For
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M102819-25mlIt is more easily oxidized than conjugated methyl linoleate. Methyl linoleate may be used as a model compound in oxidation/peroxidation assays to evaluate the anti-peroxidation activity of fullerenes, ellagitannins and other natural products. For
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M102819-500mlIt is more easily oxidized than conjugated methyl linoleate. Methyl linoleate may be used as a model compound in oxidation/peroxidation assays to evaluate the anti-peroxidation activity of fullerenes, ellagitannins and other natural products. For