Robert J. Dillon scite author profile

The dye-sensitized photoelectrosynthesis cell (DSPEC) integrates high bandgap, nanoparticle oxide semiconductors with the light-absorbing and catalytic properties of designed chromophore-catalyst assemblies. The goals are photoelectrochemical water splitting into hydrogen and oxygen and reduction of CO by water to give oxygen and carbon-based fuels. Solar-driven water oxidation occurs at a photoanode and water or CO reduction at a cathode or photocathode initiated by molecular-level light absorption. Light absorption is followed by electron or hole injection, catalyst activation, and catalytic water oxidation or water/CO reduction. The DSPEC is of recent origin but significant progress has been made. It has the potential to play an important role in our energy future.

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Active Facets on Titanium(III)‐Doped TiO₂: An Effective Strategy to Improve the Visible‐Light Photocatalytic Activity

Zuo

et al. 2012

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Different Rates of Singlet Fission in Monoclinic versus Orthorhombic Crystal Forms of Diphenylhexatriene

2013

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The dynamics of singlet fission (SF) are studied in monoclinic and orthorhombic crystals of 1,6-diphenyl-1,3,5-hexatriene. Picosecond time-resolved fluorescence measurements and the presence of a strong magnetic field effect indicate that up to 90% of the initially excited singlets undergo SF in both forms. The initial SF and subsequent triplet pair dissociation rates are found to be more rapid in the monoclinic crystal by factors of 1.5 and 3.5, respectively. These results provide clear evidence that molecular organization affects the rates of triplet pair formation and separation, both important parameters for determining the ultimate utility of a SF material.

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Singlet Fission: From Coherences to Kinetics

Piland

Burdett

Dillon

et al. 2014

J. Phys. Chem. Lett.

136

161

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Singlet fission, in which an initially excited singlet state spontaneously splits into a pair of triplet excitons, is a process that can potentially boost the efficiency of solar energy conversion. The separate electronic bands in organic semiconductors make them especially useful for dividing a high-energy singlet exciton into a pair of lower-energy triplet excitons. Recent experiments illustrate the role of spin coherence in fission, while kinetic models are used to describe how triplet and singlet states interact on longer time scales. Despite insights gained from recent experiments, the detailed structure and dynamics of the electronic states involved in the initial step of singlet fission remain active areas of investigation. On longer time scales, finding ways to efficiently harvest the triplet excitons will be an important challenge for making devices based on this phenomenon. A full understanding of singlet fission requires consideration of a sequence of photophysical events (decoherence, relaxation, and diffusion) occurring on different time scales.

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Robert J. Dillon

International activities in DMFC R&D: status of technologies and potential applications

Finding the Way to Solar Fuels with Dye-Sensitized Photoelectrosynthesis Cells

Active Facets on Titanium(III)‐Doped TiO₂: An Effective Strategy to Improve the Visible‐Light Photocatalytic Activity

Different Rates of Singlet Fission in Monoclinic versus Orthorhombic Crystal Forms of Diphenylhexatriene

Singlet Fission: From Coherences to Kinetics

Contact Info

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Resources

About

Robert J. Dillon

International activities in DMFC R&D: status of technologies and potential applications

Finding the Way to Solar Fuels with Dye-Sensitized Photoelectrosynthesis Cells

Active Facets on Titanium(III)‐Doped TiO2: An Effective Strategy to Improve the Visible‐Light Photocatalytic Activity

Different Rates of Singlet Fission in Monoclinic versus Orthorhombic Crystal Forms of Diphenylhexatriene

Singlet Fission: From Coherences to Kinetics

Contact Info

Product

Resources

About

Active Facets on Titanium(III)‐Doped TiO₂: An Effective Strategy to Improve the Visible‐Light Photocatalytic Activity