Chinese ink is applied on various materials and stabilized by atomic layer deposition to fabricate solar steam generation devices. The encapsulated ink has excellent photothermal properties and evaporation efficiency under simulated sunlight, holding great promise in solar evaporation device applications.

The invention provides in some aspects a thermal energy collection system comprising a first solar collector through which a first heat transfer fluid flows to absorb energy from sunlight as it passes through the first solar collector, and a second solar collector that collects energy from sunlight that has passed through the first solar collector. The first heat transfer fluid of the thermal energy collection system according to these aspects of the invention is in thermal coupling with the first solar collector, but not with the second solar collector. In other aspects, the invention provides a radiator system, comprising a multi-wall panel, an interior of which is in fluid coupling with, and that forms part of, a fluid circuit through which a first heat transfer fluid flows. A reflective surface is disposed in a vicinity of a second face of the multi-wall panel. Still other aspects of the invention provide a reflective film solar energy collector and a solar energy absorber.

A system of water supply, desalination and mineral salt retrieval includes a solar concentrating tower, the tower includes a pressure vessel that includes a layer of woven or non-woven carbon-nanotubes defining a thermal interface and providing a super heated surface for spray application of seawater or brine.

The present disclosure relates to an azobenzene-graphene metal coordination solar photothermal energy storage material based on metal coordination bonds and a preparation method thereof. The method comprises the following steps: preparing reduced graphene oxide; preparing an azobenzene-graphene material; and preparing an azobenzene-graphene metal coordination solar photothermal energy storage material: dispersing the prepared azobenzene-graphene material in DMF, dissolving a certain amount of metal compound in DMF, adding the DMF solution of the metal compound into the DMF solution of the azobenzene-graphene, taking out the precipitate, washing off metal ions which do not participate in coordination, and drying the obtained product to obtain the azobenzene-graphene metal coordination solar photothermal energy storage material. The present disclosure also relates to a method for improving the solar photothermal energy storage ability of a molecular solar energy fuel, comprising using an azobenzene-graphene metal coordination solar photothermal energy storage material.

Disclosed is a multilayer body, comprising a base (2) and a carbon material layer (1) on the base (2), wherein the base (2) is water-permeable, and the carbon material comprises one or more of the following materials: graphite, graphene, graphene oxide, a chemical function group-modified graphene and carbon nanotubes. Further disclosed are a method for preparing the multilayer body, the use of the multilayer body, and a light-absorbing device containing the multilayer body.

Chinese ink is applied on various materials and stabilized by atomic layer deposition to fabricate solar steam generation devices. The encapsulated ink has excellent photothermal properties and evaporation efficiency under simulated sunlight, holding great promise in solar evaporation device applications.

The present invention relates to a desalination and/or purification device, a desalination and/or purification carbon membrane, and a method of desalinating and/or purifying a liquid by using such a desalination and/or purification device. In various illustrative embodiments, a desalination and/or purification device is provided, the desalination and/or purification device comprising a carbon membrane body comprising a carbon surface, and a structure of microchannels and/or nanochannels at least partially permeating the carbon membrane body and ending at openings at the carbon surface, a liquid transportation structure extending at least partially through the carbon membrane body without being exposed at the carbon surface, and a condenser arranged above the carbon membrane body. The liquid transportation structure is arranged and configured to supply the structure of microchannels and/or nanochannels of the carbon membrane body with a liquid to be desalinated and/or purified and the structure of microchannels and/or nanochannels of the carbon membrane body may be an at least two-level disordered network of channels.

The present disclosure relates to an azobenzene-graphene metal coordination solar photothermal energy storage material based on metal coordination bonds and a preparation method thereof. The method comprises the following steps: preparing reduced graphene oxide; preparing an azobenzene-graphene material; and preparing an azobenzene-graphene metal coordination solar photothermal energy storage material: dispersing the prepared azobenzene-graphene material in DMF, dissolving a certain amount of metal compound in DMF, adding the DMF solution of the metal compound into the DMF solution of the azobenzene-graphene, taking out the precipitate, washing off metal ions which do not participate in coordination, and drying the obtained product to obtain the azobenzene-graphene metal coordination solar photothermal energy storage material. The present disclosure also relates to a method for improving the solar photothermal energy storage ability of a molecular solar energy fuel, comprising using an azobenzene-graphene metal coordination solar photothermal energy storage material.

Disclosed is a multilayer body, comprising a base (2) and a carbon material layer (1) on the base (2), wherein the base (2) is water-permeable, and the carbon material comprises one or more of the following materials: graphite, graphene, graphene oxide, a chemical function group-modified graphene and carbon nanotubes. Further disclosed are a method for preparing the multilayer body, the use of the multilayer body, and a light-absorbing device containing the multilayer body.

A localized heating structure includes a spectrally-selective solar absorber, that absorbs incident solar radiation and reflects at wavelengths longer than 2 m, with an underlying heat-spreading layer having a thermal conductivity equal to or greater than 50 W/(mK), a thermally insulating layer, adjacent to the spectrally-selective solar absorber, having a thermal conductivity of less than 0.1 W/(mK), one or more evaporation openings through the spectrally-selective solar absorber and the thermally insulating layer, and an evaporation wick, disposed in one or more of the evaporation openings in the thermally insulating layer, that contacts liquid and allows the liquid to be transported from a location beneath the thermally insulating layer through to the spectrally-selective solar absorber in order to generate vapor from the liquid. The thermally insulating layer is configured to have a density less than the liquid so that the localized heating structure is able to float on the liquid.