Organic salt, hydroxy-radical sensor including same, and detection medium

The invention claimed is: 1. An organic salt comprising terephthalic acid and at least one kind primary alkylamine, wherein an alkyl group constituting the primary alkylamine has 6 or more and 9 or less carbon atoms. 2. The organic salt according to claim 1 , wherein the alkyl group is a normal alkyl group. 3. The organic salt according to claim 1 , wherein the alkyl group has 8 or more carbon atoms. 4. The organic salt according to claim 1 , wherein the organic salt has a supramolecular crystal structure including a molecule of the primary alkylamine and a molecule of the terephthalic acid. 5. The organic salt according to claim 4 , wherein the supramolecular crystal structure has a void between the molecule of the primary alkylamine and the molecule of the terephthalic acid. 6. The organic salt according to claim 1 , wherein the organic salt is for detecting a hydroxy radical contained in a gas. 7. A hydroxy-radical sensor configured to detect a hydroxy radical contained in a gas, comprising: an exposure unit that includes an organic salt and has a structure in which the organic salt can be in contact with the gas; a light source configured to irradiate the organic salt of the exposure unit with ultraviolet light; and a light detector configured to detect fluorescence generated from the organic salt by the irradiation with the ultraviolet light, wherein the hydroxy-radical sensor detects the hydroxy radical contained in the gas based on the fluorescence detected by the light detector, the organic salt comprises terephthalic acid and at least one primary alkylamine, and an alkyl group constituting the primary alkylamine has 6 or more and 17 or less carbon atoms. 8. The hydroxy-radical sensor according to claim 7 , wherein the exposure unit is detachable as a detection medium. 9. A detection medium configured to be used for detecting a hydroxy radical contained in a gas, comprising the organic salt according to claim 1 and having a structure configured so that the organic salt can be in contact with the gas and allow for detection of a hydroxy radical contained in the gas. 10. A method comprising: exposing an organic salt to a gas to be tested for presence of hydroxy radical, the organic salt including terephthalic acid and at least one primary alkylamine; irradiating the organic salt with light from a light source; detecting with a light detector fluorescence generated from the organic salt by the irradiating of the organic salt; and determining the presence of hydroxy radical in the tested gas based on the detected fluorescence, wherein an alkyl group constituting the primary alkylamine has 6 or more and 17 or less carbon atoms.