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03344nam a22004093 4500 |
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PPN235475068 |
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http://www.sudoc.fr/235475068 |
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20190429013900.0 |
| 010 |
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|a 978-1-84973-672-5
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| 020 |
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|a US
|b 2018420586
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| 035 |
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|a 20845595
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|a LC-20845595
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|a 20190426d2018 u y0undy0103 ba
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0 |
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|a eng
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|a GB
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| 105 |
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|a ad a 001|y
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| 181 |
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|6 z01
|c txt
|2 rdacontent
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1 |
|6 z01
|a i#
|b xxxe##
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|6 z01
|c c
|2 rdamedia
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|6 z01
|a b
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|6 z01
|a nga
|2 rdacarrier
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|a Microalgal hydrogen production
|e achievements and perspectives
|f editors : Michael Seibert, Giuseppe Torzillo
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| 210 |
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|a Cambridge
|c Royal Society of Chemistry
|d 2018
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| 215 |
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|a 1 vol. (xvii-496 p.)
|c graph.
|d 24 cm
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| 225 |
0 |
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|a Comprehensive series in photochemical & photobiological sciences
|v 16
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| 320 |
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|a Notes bibliogr., index.
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| 359 |
2 |
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|b Part 1 : Biology and physiology of photobiological hydrogen production
|b Photosynthesis and Hydrogen from Photosynthetic Microorganisms
|b Structure-function of [FeFe]- and [NiFe]-hydrogenases: an Overview of Diversity, Mechanism, Maturation, and Bifurcation
|b Theory Related to [FeFe]- and [NiFe]-hydrogenases : Stereoelectronic Properties, H-cluster Oxidation, and Mechanisms for Increasing Oxygen Tolerance
|b The Physiology of the Bidirectional NiFe-hyrogenase in Cyanobacteria and the Role of Hydrogen Throughout the Evolution of Life
|b Assessment of Electrochemically-based Strategies to Protect [FeFe]-hydrogenases from Oxygen
|b Sustaining Hydrogen Production in Eukaryotic Microalgae Through Genetic Approaches
|b Metabolism and Genetics of Algal Hydrogen Production
|b Photosynthetic Electron Transfer Pathways During Hydrogen Photoproduction in Green Algae : Mechanisms and Limitations
|b The Role of Chlamydomonas Ferredoxins in Hydrogen Production and Other Related Metabolic Functions
|b The Metabolic Acclimation of Chlamydomonas reinhardtii to Depletion of Essential Nutrients : Application for Hydrogen Production
|b Environmental Factors Affecting Hydrogen Production from Chlamydomonas reinhardtii
|b In vitro Light-driven Hydrogen Production
|b Part 2 : Biotechnology of hydrogen production
|b Hydrogen Production Using Novel Photosynthetic Cell Factories. Cyanobacterial Hydrogen Production : Design of Efficient Organisms
|b Improving Photosynthetic Solar Energy Conversion Efficiency : the Truncated Light-harvesting Antenna (TLA) Concept
|b Immobilization of Microalgae as a Tool for Efficient Light Utilization in H2 Production and Other Biotechnology Applications
|b Development of Photobioreactors for H2 Production from Algae
|b Microalgal Hydrogen Production Outdoors : First Attempts
|b Material Characteristics and Requirements for Photobiological Hydrogen Production Applications
|b Environmental Life Cycle Assessments of Photobiological Hydrogen Production
|b Future Perspectives
|
| 410 |
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| |
|0 143175769
|t Comprehensive series in photochemistry and photobiology (Print)
|x 2041-9716
|v 16
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| 606 |
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|3 PPN028891023
|a Hydrogène
|2 rameau
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| 606 |
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|3 PPN027505944
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|3 PPN235476056
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|4 340
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| 702 |
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|3 PPN235476099
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|b Giuseppe
|4 340
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| 801 |
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|a FR
|b Abes
|c 20190426
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|b DLC
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| 979 |
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|a STN
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Nantilus
