NextBillion - An Initiative of the William Davidson Institute at the University of Michigan

Monday, March 9, 2015

UK scientists have developed a mobile phone-based system to help people avoid drinking water contaminated with arsenic.1 The phone’s camera measures quantum dot fluorescence in response to arsenic, achieving a limit of detection as low as 5μM.

Approximately 57 million people worldwide encounter As(III) concentrations exceeding the World Health Organization (WHO) recommended maximum of 10μg/L on a regular basis. Chronic exposure to this well known carcinogen and poison, which binds to proteins and impairs cell function, is one of the largest environmental health disasters in the world. Finding a portable, easy-to-use method to measure levels of this most toxic form of arsenic in drinking water is therefore vital.

Now, Elizabeth Hall and her group from the University of Cambridge have adapted an algorithm, first developed by scientists in Algeria and the UK2 for identifying cancer from skin images on a smartphone, to detect As(III) in water.

Discriminating As(III) from other metal ions lurking in groundwater is key to their success. Cu(II) is the main obstacle as it binds in a similar matter to As(III), which has hindered previous detection methods. Hall’s group have overcome this by designing a dual quantum dot system comprising both As(III)/Cu(II) selective quantum dots and Cu(II) selective reference quantum dots that can be added to water samples. Using different red, green and blue (RGB) channels, a phone camera can process fluorescence data from the two quantum dots separately, enabling a Cu2+ baseline measurement to be subtracted from the overall measurement. ‘Designing the quantum dots to produce a self-referencing system for an algorithm was the most challenging part of the work,’ comments Hall.