Letteratura scientifica selezionata sul tema "Dye-Sensitized Photoelectrosynthetic Cell"
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Articoli di riviste sul tema "Dye-Sensitized Photoelectrosynthetic Cell":
Coppo, Rodolfo L., Byron H. Farnum, Benjamin D. Sherman, Neyde Y. Murakami Iha e Thomas J. Meyer. "The role of layer-by-layer, compact TiO2 films in dye-sensitized photoelectrosynthesis cells". Sustainable Energy & Fuels 1, n. 1 (2017): 112–18. http://dx.doi.org/10.1039/c6se00022c.
Farràs, P., C. Di Giovanni, J. N. Clifford, P. Garrido-Barros, E. Palomares e A. Llobet. "Light driven styrene epoxidation and hydrogen generation using H2O as an oxygen source in a photoelectrosynthesis cell". Green Chemistry 18, n. 1 (2016): 255–60. http://dx.doi.org/10.1039/c5gc01589h.
Orbelli Biroli, Alessio, Francesca Tessore, Gabriele Di Carlo, Maddalena Pizzotti, Elisabetta Benazzi, Francesca Gentile, Serena Berardi et al. "Fluorinated ZnII Porphyrins for Dye-Sensitized Aqueous Photoelectrosynthetic Cells". ACS Applied Materials & Interfaces 11, n. 36 (20 agosto 2019): 32895–908. http://dx.doi.org/10.1021/acsami.9b08042.
Luo, Hanlin, Wenjing Song, Paul G. Hoertz, Kenneth Hanson, Rudresh Ghosh, Sylvie Rangan, M. Kyle Brennaman et al. "A Sensitized Nb2O5 Photoanode for Hydrogen Production in a Dye-Sensitized Photoelectrosynthesis Cell". Chemistry of Materials 25, n. 2 (28 dicembre 2012): 122–31. http://dx.doi.org/10.1021/cm3027972.
Wang, Degao, Qing Huang, Weiqun Shi, Wei You e Thomas J. Meyer. "Application of Atomic Layer Deposition in Dye-Sensitized Photoelectrosynthesis Cells". Trends in Chemistry 3, n. 1 (gennaio 2021): 59–71. http://dx.doi.org/10.1016/j.trechm.2020.11.002.
Wang, Degao, Byron H. Farnum, Matthew V. Sheridan, Seth L. Marquard, Benjamin D. Sherman e Thomas J. Meyer. "Inner Layer Control of Performance in a Dye-Sensitized Photoelectrosynthesis Cell". ACS Applied Materials & Interfaces 9, n. 39 (2 marzo 2017): 33533–38. http://dx.doi.org/10.1021/acsami.7b00225.
Brennaman, M. Kyle, Robert J. Dillon, Leila Alibabaei, Melissa K. Gish, Christopher J. Dares, Dennis L. Ashford, Ralph L. House, Gerald J. Meyer, John M. Papanikolas e Thomas J. Meyer. "Finding the Way to Solar Fuels with Dye-Sensitized Photoelectrosynthesis Cells". Journal of the American Chemical Society 138, n. 40 (3 ottobre 2016): 13085–102. http://dx.doi.org/10.1021/jacs.6b06466.
Song, Wenjing, Zuofeng Chen, Christopher R. K. Glasson, Kenneth Hanson, Hanlin Luo, Michael R. Norris, Dennis L. Ashford, Javier J. Concepcion, M. Kyle Brennaman e Thomas J. Meyer. "Interfacial Dynamics and Solar Fuel Formation in Dye-Sensitized Photoelectrosynthesis Cells". ChemPhysChem 13, n. 12 (19 giugno 2012): 2882–90. http://dx.doi.org/10.1002/cphc.201200100.
Song, Wenjing, Aaron K. Vannucci, Byron H. Farnum, Alexander M. Lapides, M. Kyle Brennaman, Berç Kalanyan, Leila Alibabaei et al. "Visible Light Driven Benzyl Alcohol Dehydrogenation in a Dye-Sensitized Photoelectrosynthesis Cell". Journal of the American Chemical Society 136, n. 27 (30 giugno 2014): 9773–79. http://dx.doi.org/10.1021/ja505022f.
Xu, Bo, Lei Tian, Ahmed S. Etman, Junliang Sun e Haining Tian. "Solution-processed nanoporous NiO-dye-ZnO photocathodes: Toward efficient and stable solid-state p-type dye-sensitized solar cells and dye-sensitized photoelectrosynthesis cells". Nano Energy 55 (gennaio 2019): 59–64. http://dx.doi.org/10.1016/j.nanoen.2018.10.054.
Tesi sul tema "Dye-Sensitized Photoelectrosynthetic Cell":
Segalina, Alekos. "Computational modeling of photoactive materials and heterointerfaces for solar energy conversion". Electronic Thesis or Diss., Université de Lorraine, 2020. http://www.theses.fr/2020LORR0284.
In this thesis we have dealt with the computational modelling of materials and molecular systems that are used in dye-sensitized solar cells (DSSCs) and dye-sensitized photoelectrosynthetic cells (DSPECs). In particular, we have addressed the study of the elements composing these devices, i.e. dyes, semiconductors and interfaces, by means of computational chemistry techniques, paying special attention to the modelling of the dynamical, optical and electronic structure properties.The complexity of the systems and the physical processes involved requires the combined use of different theoretical methodologies, as detailed below. A perylene diimide (PDI) dye in solution has been investigated by combining Density Functional Theory based methods and classical molecular dynamics (MD) simulations. In particular, we focused on the excited state properties of its aggregates and on the simulation of its electronic absorption spectrum by taking into account vibronic effects. In this context, to have a reliable description of the potential energy surface we made use of a specifically parameterized Quantum-Mechanically Derived Force Field (QMD-FF). Regarding the semiconductors, we have studied different phases of WO₃, that is an n-type semiconductor, using methods based on the Green’s Functions in order to rationalize the role of the crystal lattice distortion on the band structure and on the electronic and optical properties. Lastly, we have studied a simplified, albeit realistic model, of a dye-sensitized NiO interface (C343@NiO(100)) by combining ab initio molecular dynamic (AIMD) and GW calculations to describe the role of thermal effects and of the environmental solvent molecules on the interfacial energy-level alignment
Capitoli di libri sul tema "Dye-Sensitized Photoelectrosynthetic Cell":
Alibabaei, Leila, M. Kyle Brennaman e Thomas J. Meyer. "Light-Driven Water Splitting in the Dye-Sensitized Photoelectrosynthesis Cell". In Green Chemistry and Sustainable Technology, 229–57. Singapore: Springer Singapore, 2017. http://dx.doi.org/10.1007/978-981-10-5924-7_6.
Coggins, Michael K., e Thomas J. Meyer. "Dye Sensitized Photoelectrosynthesis Cells for Making Solar Fuels: From Basic Science to Prototype Devices". In Photoelectrochemical Solar Fuel Production, 513–48. Cham: Springer International Publishing, 2016. http://dx.doi.org/10.1007/978-3-319-29641-8_13.
Ielo, I., A. M. Cancelliere, A. Arrigo e G. La Ganga. "Metal-based chromophores for photochemical water oxidation". In Photochemistry, 384–409. Royal Society of Chemistry, 2023. http://dx.doi.org/10.1039/bk9781837672301-00384.