Anmerkungen und Literatur
1 M. Heimann, M. Reichstein, Nature 2008, 451, 289-292.
2 Nationale Akademie der Wissenschaften Leopoldina (2013): Bioenergie – Möglichkeiten und Grenzen, Leopoldina, 2013.
3 (a) C. Genovese, C. Ampelli, S. Perathoner, G. Centi, Journal of Catalysis 2013, 308, 237-249;
(b)G. Centi, E.A. Quadrelli, S. Perathoner, Energy & Environmental Science 2013, 6, 1711-1731.
4 M.I. Hoffert, K. Caldeira, G. Benford, D. R. Criswell, C. Green, H. Herzog, A. K. Jain, H. S. Kheshgi, K. S. Lackner, J. S. Lewis, H. D. Lightfoot, W. Manheimer, J. C. Mankins, M. E. Mauel, L. J. Perkins, M. E. Schlesinger, T. Volk, T. M. L. Wigley, Science 2002, 298, 98I-987.
5 P. Falkowski, R.J. Scholes, E. Boyle, J. Canadell, D. Canfield, J. Elser, N. Gruber, K. Hibbard, P. Hogberg, S. Linder, F. T. Mackenzie, B. Moore, T. Pedersen, Y. Rosenthal, S. Seitzinger, V. Smetacek, W. Steffen, Science 2000, 290, 291-296.
6 K. Aleklett, M. Hook, K. Jakobsson, M. Lardelli, S. Snowden, B. Soderbergh, Energy Policy 2010, 38, 1398-1414.
7 K. Becker, V. Wulfmeyer, T. Berger, J. Gebel, W. Muench, Earth System Dynamics 2013, 4, 237-251.
8 M. Heimann, Earth System Dynamics 2014, 5, 41-42.
9 N. Cox, D. A. Pantazis, F. Neese, W. Lubitz, Accounts of Chemical Research 2013, 46, 1588-1596.
10 (a) N. S. Lewis, D. G. Nocera, Proceedings of the National Academy of Sciences of the United States of America 2006, 103, 1572.9-15735;
(b) S. Hu, c. X. Xiang, S. Haussener, A. D. Berger, N. S. Lewis, Energy & Environmental Science 2013, 6, 2.984-2993;
(c) J. McKone, N. Lewis, in Photoelectrochemical Water Splitting: Materials, Processes and Architectures (Eds.: H. J. Lewerenz, L. Peter), 2013, pp. 52-82;
(d) E. A. Santori, N. C. Strandwitz, R. L. Grimm, B. S. Brunschwig, H. A. Atwater, N. S. Lewis, Energy & Environmental Science 2014, 7, 2329-2338.
11 J. R. Bolton, S.J. Strickler, J. S. Connolly, Nature 1985, 316, 495-500.
12 D. Teichmann, W. Arlt, P. Wasserscheid, International Journal of Hydrogen Energy 2012, 37, 18118-18132.
13 (a) G. Gahleitner, International Journal of Hydrogen Energy 2013, 38, 2039-2061;
(b) R. Kothari, D. Buddhi, R. L. Sawhney, Renewable & Sustainable Energy Reviews 2008, 12, 553-563.
14 J. Burger, E. Strofer, H. Hasse, Chemical Engineering Research & Design, 2013, 91, 2648-2662
15 (a) R. Rinaldi, N. Meine, J. vom Stein, R. Palkovits, F. Schüth, Chemsuschem, 3, 266-276;
(b) G. W. Huber, S. Iborra, A. Corma, Chemical Reviews 2006, 106, 4044-4098.