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To prevent chemical reactions (like oxidation) on different materials by applying a negative voltage, you generally need to apply a voltage more negative than their standard reduction potentials. Here's a quick rundown based on standard electrode potentia

INTO JAPANESE

異なる物質に負の電圧を印加することで化学反応（酸化など）を防ぐには、通常、それぞれの標準還元電位よりも負の電圧を印加する必要があります。標準電極電位に基づいた簡単な説明を以下に示します。

BACK INTO ENGLISH

To prevent a chemical reaction (such as oxidation) by applying a negative voltage to dissimilar substances, it is usually necessary to apply a voltage more negative than their respective standard reduction potentials. A simple explanation based on standard electrode potentials is given below.

INTO JAPANESE

異なる物質に負の電圧を印加して化学反応（例えば酸化反応）を防ぐには、通常、それぞれの標準還元電位よりも負の電圧を印加する必要があります。以下では、標準電極電位に基づいた簡単な説明を示します。

BACK INTO ENGLISH

To prevent chemical reactions (e.g. oxidation reactions) by applying a negative voltage to different substances, it is usually necessary to apply a voltage more negative than their respective standard reduction potentials. Below is a simple explanation based on standard electrode potentials.

INTO JAPANESE

異なる物質に負の電圧を印加して化学反応（例えば酸化反応）を防ぐには、通常、それぞれの標準還元電位よりも負の電圧を印加する必要があります。以下は、標準電極電位に基づいた簡単な説明です。

BACK INTO ENGLISH

To apply a negative voltage to different substances to prevent a chemical reaction (such as an oxidation reaction), you usually need to apply a voltage more negative than their respective standard reduction potentials. Below is a simple explanation based on standard electrode potentials.

INTO JAPANESE

異なる物質に負の電圧を印加して化学反応（例えば酸化反応）を防ぐには、通常、それぞれの標準還元電位よりも負の電圧を印加する必要があります。以下は、標準電極電位に基づいた簡単な説明です。

BACK INTO ENGLISH

To apply a negative voltage to different substances to prevent a chemical reaction (such as an oxidation reaction), you usually need to apply a voltage more negative than their respective standard reduction potentials. Below is a simple explanation based on standard electrode potentials.