Strategic Elements Ltd. announced that the Energy InkTM technology is on track to exceed the power density of solar technology due to technical breakthroughs in the process of converting moisture into electrical energy. Power density is a measure of how much power can be generated from a given space. To date, no other relevant renewable energy technology has come close to exceeding the power density of solar technology.

Breakthroughs in moisture-to-energy conversion are being engineered into an Energy InkTM cell, designed for renewable energy generation, with a power density that exceeds solar technology. Renewable Energy Power Density. In renewable energy technology, power density is highly desirable because it means that more power can be generated from a give space.

In the context of solar panels, power density refers to the amount of power that can be generated per unit area of the panel. Photovoltaic technology (solar) has the highest power density of all renewable energy sources and is the gold standard. Exceed the power density of solar will represent a significant global achievement for the Energy InkTM.

Power density is also used to predict the potential power output of renewable energy systems scaled up over a larger area or volume. Once the power density of the Energy InkTM cell is finalised, predictions on the potential power output of a larger-scale system can be made. This will assist the Company in communicating the significant potential larger-scale opportunity of the Energy InkTM.

Application Focus. Market entry is focused on where solar or grid energy is impractical or too expensive. The Company is working with experts from specialised areas, such as electric vehicle charging and computing infrastructure, to identify initial applications that leverage the features of the Energy InkTM.

Summary of potential features: Renewable green energy; Utilises free, limitless ambient moisture; Generate energy both day and night; Portability, lightweight, flexible materials; Position in a cabinet indoors or outdoors; Avoid expensive grid infrastructure; Much smaller footprint; Printable materials reducing time and cost.