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| Naji, M. |
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| Petrov, R. H. | Madrid |
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Wang, Yuan
in Cooperation with on an Cooperation-Score of 37%
Topics
Publications (6/6 displayed)
- 2022Enhanced coupling between ballistic exciton-polariton condensates through tailored pumpingcitations
- 2021Direct Solar Hydrogen Generation at 20% Efficiency Using Low-Cost Materialscitations
- 2018Self-assembly of flower-like LaNiAlO 3 -supported nickel catalysts for CO methanationcitations
- 2015Unusual crystalline morphology of Poly Aryl Ether Ketones (PAEKs)citations
- 2015Glass bead filled Polyetherketone (PEK) composite by High Temperature Laser Sintering (HT-LS)citations
- 2015Powder characteristics, microstructure and properties of graphite platelet reinforced Poly Ether Ether Ketone composites in High Temperature Laser Sintering (HT-LS)citations
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article
Direct Solar Hydrogen Generation at 20% Efficiency Using Low-Cost Materials
Abstract
<p>While direct solar-driven water splitting has been investigated as an important technology for low-cost hydrogen production, the systems demonstrated so far either required expensive materials or presented low solar-to-hydrogen (STH) conversion efficiencies, both of which increase the levelized cost of hydrogen (LCOH). Here, a low-cost material system is demonstrated, consisting of perovskite/Si tandem semiconductors and Ni-based earth-abundant catalysts for direct solar hydrogen generation. NiMo-based hydrogen evolution reaction catalyst is reported, which has innovative “flower-stem” morphology with enhanced reaction sites and presents very low reaction overpotential of 6 mV at 10 mA cm<sup>−2</sup>. A perovskite solar cell with an unprecedented high open circuit voltage (V<sub>oc</sub>) of 1.271 V is developed, which is enabled by an optimized perovskite composition and an improved surface passivation. When the NiMo hydrogen evolution catalyst is wire-connected with an optimally designed NiFe-based oxygen evolution catalyst and a high-performance perovskite-Si tandem cell, the resulting integrated water splitting cell achieves a record 20% STH efficiency. Detailed analysis of the integrated system reveals that STH efficiencies of 25% can be achieved with realistic improvements in the perovskite cell and an LCOH below ≈$3 kg<sup>−1</sup> is feasible.</p>