In response to the growing demand for sustainable graphene synthesis methods, traditionally characterized by harsh conditions and prolonged processing, we present an innovative approach. Here, graphene is synthesized utilizing , a natural resource, under mild conditions of cold plasma. This method not only aligns with the increasing need for environmentally friendly processes but also boasts efficiency, producing graphene within seconds. Our investigation employs various analytical techniques, including Raman spectroscopy, confirming the successful synthesis of graphene. The distinctive peaks identified in the spectroscopic analysis validate the high quality of the graphene material produced. Beyond synthesis, our study delves into the electrochemical properties of the synthesized graphene. Rigorous testing with real biomolecules reveals enhanced current peaks, underscoring the potential applications of graphene in the realm of electrochemical sensing. This work contributes to advancing sustainable and efficient graphene synthesis while exploring its promising properties for practical applications.

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石墨烯的非常规环保合成及其电化学分析

为了满足对可持续石墨烯合成方法不断增长的需求，传统上以恶劣条件和长时间加工为特征，我们提出了一种创新方法。在这里，石墨烯是利用自然资源在温和的冷等离子体条件下合成的。这种方法不仅满足了对环保工艺日益增长的需求，而且还具有效率高，可在几秒钟内生产出石墨烯。我们的研究采用了各种分析技术，包括拉曼光谱，证实了石墨烯的成功合成。光谱分析中识别出的独特峰验证了所生产的石墨烯材料的高质量。除了合成之外，我们的研究还深入研究了合成石墨烯的电化学特性。对真实生物分子的严格测试揭示了增强的电流峰值，强调了石墨烯在电化学传感领域的潜在应用。这项工作有助于推进可持续和高效的石墨烯合成，同时探索其在实际应用中的有前景的特性。