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Journal Abstract Search

323 related items for PubMed ID: 27257255

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  • 3. Artificial Photosynthesis at Efficiencies Greatly Exceeding That of Natural Photosynthesis.
    Dogutan DK, Nocera DG.
    Acc Chem Res; 2019 Nov 19; 52(11):3143-3148. PubMed ID: 31593438
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  • 4. Advances and recent trends in heterogeneous photo(electro)-catalysis for solar fuels and chemicals.
    Highfield J.
    Molecules; 2015 Apr 15; 20(4):6739-93. PubMed ID: 25884553
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  • 8. Solar-driven water-splitting provides a solution to the energy problem underpinning climate change.
    Barber J.
    Biochem Soc Trans; 2020 Dec 18; 48(6):2865-2874. PubMed ID: 33242067
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  • 9. Hybrid Catalysts for Artificial Photosynthesis: Merging Approaches from Molecular, Materials, and Biological Catalysis.
    Smith PT, Nichols EM, Cao Z, Chang CJ.
    Acc Chem Res; 2020 Mar 17; 53(3):575-587. PubMed ID: 32124601
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  • 10. Metabolic Engineering of Cupriavidus necator H16 for Sustainable Biofuels from CO2.
    Panich J, Fong B, Singer SW.
    Trends Biotechnol; 2021 Apr 17; 39(4):412-424. PubMed ID: 33518389
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  • 13. Application of Pulse Radiolysis to Mechanistic Investigations of Catalysis Relevant to Artificial Photosynthesis.
    Grills DC, Polyansky DE, Fujita E.
    ChemSusChem; 2017 Nov 23; 10(22):4359-4373. PubMed ID: 28898568
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  • 16. Biomimetic and microbial approaches to solar fuel generation.
    Magnuson A, Anderlund M, Johansson O, Lindblad P, Lomoth R, Polivka T, Ott S, Stensjö K, Styring S, Sundström V, Hammarström L.
    Acc Chem Res; 2009 Dec 21; 42(12):1899-909. PubMed ID: 19757805
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  • 18. Perspectives for the biotechnological production of biofuels from CO2 and H2 using Ralstonia eutropha and other 'Knallgas' bacteria.
    Brigham C.
    Appl Microbiol Biotechnol; 2019 Mar 21; 103(5):2113-2120. PubMed ID: 30666363
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