A high-absorption and self-driven salt-resistant black gold nanoparticle-deposited sponge for highly efficient, salt-free, and long-term durable solar desalination

There is no author summary for this article yet. Authors can add summaries to their articles on ScienceOpen to make them more accessible to a non-specialist audience.

Abstract

The self-driven salt resistance mechanism and high solar absorption of BDS realized efficient and long-term durable solar desalination.

Abstract

Although it is a promising approach for drinkable water production, solar desalination suffers from salt deposition, which reduces light absorption. This study presents a self-driven salt-resistant material, black gold nanoparticles-deposited sponge (BDS), for high-efficiency, salt-free and durable solar desalination. It utilizes the strong water absorption of melamine resin sponges, in which concentrated and dilute solutions exchange freely, driven by gravity and capillary forces. As such, the concentration of salt solution in the sponge cannot reach saturation to generate salt during solar evaporation. BDS can maintain an efficiency of 90% for 11 hours under 10 sun (10 kW m ⁻²) and demonstrates a fresh water production rate of 12.74 kg m ⁻² h ⁻¹ with no visible salt deposition. Under natural sunlight, BDS maintains an efficiency of 80% for at least 4 days.

Related collections

Most cited references 45

Record: found
Abstract: not found
Article: not found

A study of the nucleation and growth processes in the synthesis of colloidal gold

John Turkevich, Peter Cooper Stevenson, James Hillier (1951)

0 comments Cited 1119 times – based on 0 reviews      Review now

Bookmark

Record: found
Abstract: found
Article: not found

Science and technology for water purification in the coming decades.

Mark Shannon, Paul Bohn, Menachem Elimelech … (2008)

One of the most pervasive problems afflicting people throughout the world is inadequate access to clean water and sanitation. Problems with water are expected to grow worse in the coming decades, with water scarcity occurring globally, even in regions currently considered water-rich. Addressing these problems calls out for a tremendous amount of research to be conducted to identify robust new methods of purifying water at lower cost and with less energy, while at the same time minimizing the use of chemicals and impact on the environment. Here we highlight some of the science and technology being developed to improve the disinfection and decontamination of water, as well as efforts to increase water supplies through the safe re-use of wastewater and efficient desalination of sea and brackish water.

0 comments Cited 865 times – based on 0 reviews      Review now

Bookmark

Record: found
Abstract: found
Article: not found

The future of seawater desalination: energy, technology, and the environment.

Menachem Elimelech, William Phillip (2011)

In recent years, numerous large-scale seawater desalination plants have been built in water-stressed countries to augment available water resources, and construction of new desalination plants is expected to increase in the near future. Despite major advancements in desalination technologies, seawater desalination is still more energy intensive compared to conventional technologies for the treatment of fresh water. There are also concerns about the potential environmental impacts of large-scale seawater desalination plants. Here, we review the possible reductions in energy demand by state-of-the-art seawater desalination technologies, the potential role of advanced materials and innovative technologies in improving performance, and the sustainability of desalination as a technological solution to global water shortages.