Industrial processes, such as fossil fuel combustion and nuclear materials processing, have resulted in heavy metal contamination of soils and potentially of the surrounding groundwater. In particular, mercury contamination of groundwater is a serious threat to the ecosystem, cumulating in serious health problems for humans as well as wildlife. Monitoring of mercury contamination in groundwater requires a method of long-term verification. Sensors with lifetimes of months to years of operation without operator intervention are required. One sensor geometry, which is capable of detecting relevant concentrations of aqueous ionic contaminants, such as mercury, while withstanding typical environmental conditions, is the acoustic plate mode (APM) sensor. This piezoelectric sensor protects the electronics from the potentially corrosive aqueous fluid environment while providing a significant interaction with the fluid. Gold films are employed to accumulate the mercury via surface amalgamation. The added mass is measured as a change in the resonant frequency of the piezoelectric element. Electrochemical techniques are employed to impart selectivity, reversibility and to accelerate response kinetics. Initial results indicate a sensitivity of approximately 2.4 ng/mL, which approaches the 2.0 ng/mL limit imposed by the safe drinking water act (SDWA). Research is underway to lower this detection limit to allow the sensor to meet the requirements of environmental sensing, wastewater monitoring and drinking water testing.
展开▼
机译:化石燃料燃烧和核材料加工等工业过程已导致土壤和周围地下水的重金属污染。特别是,地下水中的汞污染严重威胁着生态系统,给人类和野生生物造成严重的健康问题。监测地下水中的汞污染需要长期验证的方法。需要使用寿命长达数月至数年,且无需操作员干预的传感器。能够检测典型的环境条件而能够检测诸如汞之类的水性离子污染物的相关浓度的一种传感器几何形状是声板模式(APM)传感器。该压电传感器可保护电子设备免受潜在腐蚀性水性流体环境的影响,同时提供与流体的显着相互作用。金膜用于通过表面汞齐积聚汞。测量附加质量作为压电元件的谐振频率的变化。电化学技术用于赋予选择性,可逆性并加快响应动力学。初步结果表明灵敏度约为2.4 ng / mL,接近安全饮用水法案(SDWA)规定的2.0 ng / mL极限。正在进行降低该检测限的研究,以使传感器能够满足环境传感,废水监测和饮用水测试的要求。
展开▼
