Luminescent solar concentrator (LSC) prototype for spectral conversion
SHARE:
Market Maturity: Business Ready
These are innovations that are putting concrete market-oriented ideas together and are, for example, pursuing market studies, business plans, engagements with relevant partner and end-users. Learn more
Market Creation Potential
This innovation was assessed by the JRC’s Market Creation Potential indicator framework as having a “High” level of Market Creation Potential. Only innovations that are showing multiple signals of market creation potential are assigned a value under this indicator system. Learn more
Women-led innovation
A woman had a leadership role in developing this innovation in at least one of the Key Innovator organisations listed below.
Go to Market needs
Needs that, if addressed, can increase the chances this innovation gets to (or closer to) the market incude:
Prepare for Market entry
Scale-up market opportunities
Location of Key Innovators developing this innovation
SPOTLIGHT’s key objective is to develop and validate a photonic device and chemical process concept for the sunlight-powered conversion of CO2 and green H2 to the chemical fuel methane (CH4, Sabatier process), and to carbon monoxide (CO, reverse water gas shift process) as starting material for production of the chemical fuel methanol (CH3OH). Both CH4 and CH3OH are compatible with our current infrastructure, and suited for multiple applications such as car fuel, energy storage, and starting material for the production of valuable chemicals.
SPOTLIGHT’s photonic device will comprise a transparent flow reactor, optimized for light incoupling in the catalyst bed. Furthermore, it will comprise secondary solar optics to concentrate natural sunlight and project it onto the reactor, and an energy efficient LED light source to ensure continuous 24/7 operation.
SPOTLIGHT’s catalysts will be plasmonic catalysts, capable of absorbing the entire solar spectrum. The space-time-yield achieved to date with these catalysts in the Sabatier and rWGS process are > 104 times higher than for conventional semiconductor catalysts. This makes the concept technically feasible for scale up without excessive land use, and makes it economically much more attractive because of strongly reduced capital expenditures.
SPOTLIGHT’s photonic device and process concept are perfectly suited for CO2 sources up to 1 Mt p.a., which makes them complementary to existing large scale CCU processes. For the EU, we estimate that the annual CO2 reduction through use of SPOTLIGHT’s technology is maximized to 800 Mt, which is approximately 18% of the current annual total. This could generate an amount of CH4 produced in the EU which equals 14.5 EJ of energy, corresponding to 21% of the EU’s current annual energy use, and representing a value of € 393 bil. Ergo, SPOTLIGHT’s technology reduces the dependence of the EU on non-EU countries for its energy supply, and initiates a new multi-billion industry.
Innnovation Radar's analysis of this innovation is based on data collected on 11/07/2024. The unique id of this innovation in the European Commission's IT systems is: 124862