pH-Sensitive Ultra-Thin Oxide-Liquid Metal System: A New Concept of the Fundamental Thermodynamic Limit of pH Sensitivity

A. Das, Hong Tao Wang
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引用次数: 1

Abstract

A complex experiment was performed to unravel the simplest particle,Higgs Boson, and we performed a simple experiment to address a complex system. We tested the pH response of liquid metal EGaInSn in the form of a pendant drop and measured the sensitivity of 92.96 this http URL-1 in the pH range from 4 to 10. We derived a unified Nernst equation to explain high pH sensitivity and coincidentally rediscovered Marcel Pourbaix illuminating work on the pH-Potential Diagram. The surface potential in the sensor probe is originated from a spontaneous electrochemical reaction purely driven by thermodynamics, rendering to the lowest system energy possible. Our findings have a great scientific significance, which could redefine the conventional concept of the ion sensing mechanism in a solid-state electrochemical sensor.
pH敏感超薄氧化物-液态金属体系:pH敏感性基本热力学极限的新概念
为了解开最简单的粒子希格斯玻色子,我们进行了一个复杂的实验,我们也进行了一个简单的实验来研究一个复杂的系统。我们测试了液态金属EGaInSn在悬垂液滴形式下的pH响应,在pH值4 ~ 10范围内测得灵敏度为92.96 this http URL-1。我们推导了一个统一的能斯特方程来解释高pH值敏感性,并巧合地重新发现了Marcel Pourbaix在pH-电位图上的启发性工作。传感器探头中的表面电位源于纯粹由热力学驱动的自发电化学反应,使系统能量尽可能低。我们的发现具有重要的科学意义,可以重新定义固态电化学传感器中离子传感机制的传统概念。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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