目前市面上缺乏簡單而精準的過氧化氫檢測法，我們參考Fenton Reaction 中，鐵離子對過氧化氫分解的催化模式，利用鐵、鈷、鎳、錳、鋅分子篩，測試他們催化過氧化氫分解反應的效率，從成本、毒性、活化能的多方考量下，選擇以分子篩來固定金屬催化離子，作為我們後續實驗的研究主軸。實驗的初步，我們選擇過氧化氫作為自由基，並著重於過氧化氫的分解反應。利用濃差電池的原理，設計出一套濃度檢測系統，由分子篩作為電極。鑒於粉末狀的分子篩容易流失，我們製備出陶土鐵分子篩，以陶土固定分子篩，並以此作為電極，搭配白金絲，透過能士特方程式，測出過氧化氫的濃度，且藉由電路調控放大倍率，可以直接控制檢測範圍。從實驗結果得知，鐵分子篩在處理過氧化氫的時候，不會有鐵離子溶出的現象，且其催化性在酸性液中可以維持，能不斷的使用，長時間來看，分子篩相當有經濟與環境保護上的價值。We attempted to provide a system for quickly determining the concentration of free radicals. The existing methods or techniques are inefficient or need expensive equipment, therefore, an inexpensive system is being sought for. As a preliminary study, we focused on the decomposition of hydrogen peroxide. Taking the Fenton reaction as reference, we designed a measuring system. This system includes a catalyst containing Fe or Pt ions for catalyzing hydrogen peroxide decomposition reaction. The Fe- and Pt-zeolite were prepared to hold Fe and Pt ions to avoid losing. Because the electrically induced potential would decrease with the decrease in the concentration of hydrogen peroxide, we could measure the concentration of hydrogen peroxide by monitoring the electrical potential. We determined the initial concentration of hydrogen peroxide in water from the initial electrical potential measured through the equation obtained from the calibration line. The practicability of this system has been assured after a series of experiments. We will further develop the technique for measuring other free radicals. We anticipate that this technique will be further developed for measuring other free radicals. Although there are several problems and limitations to be solved and conquered, one thing is for sure: this system is an environment-friendly and cost-effective facility for determining the concentration of free radicals in an aqueous solution.