Excited State Dynamics of a Pt^II Diimine Complex bearing a Naphthalene-Diimide Electron Acceptor Yazar: Igor V. Sazanovich (1293417)

“…A combination of picosecond time-resolved infrared spectroscopy, picosecond transient absorption spectroscopy, and nanosecond flash photolysis was used to elucidate the nature and dynamics of a manifold of the lowest excited states in Pt(phen-NDI)Cl₂ (<b>1</b>), where NDI = strongly electron accepting 1,4,5,8-naphthalene-diimide group. …”

Excited State Dynamics of a Pt^II Diimine Complex bearing a Naphthalene-Diimide Electron Acceptor Yazar: Igor V. Sazanovich (1293417)

“…A combination of picosecond time-resolved infrared spectroscopy, picosecond transient absorption spectroscopy, and nanosecond flash photolysis was used to elucidate the nature and dynamics of a manifold of the lowest excited states in Pt(phen-NDI)Cl₂ (<b>1</b>), where NDI = strongly electron accepting 1,4,5,8-naphthalene-diimide group. …”

Excited State Dynamics of a Pt^II Diimine Complex bearing a Naphthalene-Diimide Electron Acceptor Yazar: Igor V. Sazanovich (1293417)

“…A combination of picosecond time-resolved infrared spectroscopy, picosecond transient absorption spectroscopy, and nanosecond flash photolysis was used to elucidate the nature and dynamics of a manifold of the lowest excited states in Pt(phen-NDI)Cl₂ (<b>1</b>), where NDI = strongly electron accepting 1,4,5,8-naphthalene-diimide group. …”

Combined X-ray Diffraction and ¹⁵N CPMAS NMR Study of Molecular Structure and Proton Order/Disorder Phenomena in Cyclic <i>N</i>,<i>N</i>‘-Bisarylformamidine Dimers Yazar: Romana Anulewicz (3000921)

“…However, in practice, the disorder of the latter is not resolved leading to the observation of equalized C···N bond lengths. …”

Cerium(IV)−Lanthanide(III)−Pyridine-2,6-dicarboxylic Acid System: Coordination Salts, Chains, and Rings Yazar: T. K. Prasad (2330329)

“…Tb and heavier lanthanides all form compounds isomorphous with Type-IV compounds. …”

CO Oxidation on Au/TiO₂: Condition-Dependent Active Sites and Mechanistic Pathways Yazar: Yang-Gang Wang (1489291)

“…Under low oxygen pressures, O_adAu⁺CO species can be a source of catalyst deactivation and the dominant pathway involves only Au-perimeter sites. A detailed comparison of the current model and the existing literature resolves many apparent inconsistencies in the mechanistic interpretations.…”

CO Oxidation on Au/TiO₂: Condition-Dependent Active Sites and Mechanistic Pathways Yazar: Yang-Gang Wang (1489291)

“…Under low oxygen pressures, O_adAu⁺CO species can be a source of catalyst deactivation and the dominant pathway involves only Au-perimeter sites. A detailed comparison of the current model and the existing literature resolves many apparent inconsistencies in the mechanistic interpretations.…”

Functional Genomic Analysis of <i>Candida albicans</i> Adherence Reveals a Key Role for the Arp2/3 Complex in Cell Wall Remodelling and Biofilm Formation Yazar: Jason A. Lee (3357287)

“…<div><p>Fungal biofilms are complex, structured communities that can form on surfaces such as catheters and other indwelling medical devices. …”

Schematic model of molecular events during elevated CO₂-induced stomatal closure. Yazar: Liina Jakobson (3385358)

Sperm motility of WT and <i>Cfap77</i>-KO mice. Yazar: Lan Xia (443866)

“…<div><p>The assembly and physiological function of cilia and flagella depend on the stable association of A- and B-tubules, which form axonemal doublet microtubules (DMTs). However, the mechanisms underlying the connection of B-tubules to A-tubules to form DMTs in mammalian cilia/flagella are unclear. …”

Decrypting Cryptochrome: Revealing the Molecular Identity of the Photoactivation Reaction Yazar: Ilia A. Solov’yov (1350273)

“…The unique biological function of cryptochrome supposedly arises from a photoactivation reaction involving radical pair formation through electron transfer. …”

Decrypting Cryptochrome: Revealing the Molecular Identity of the Photoactivation Reaction Yazar: Ilia A. Solov’yov (1350273)

“…The unique biological function of cryptochrome supposedly arises from a photoactivation reaction involving radical pair formation through electron transfer. …”

Decrypting Cryptochrome: Revealing the Molecular Identity of the Photoactivation Reaction Yazar: Ilia A. Solov’yov (1350273)

“…The unique biological function of cryptochrome supposedly arises from a photoactivation reaction involving radical pair formation through electron transfer. …”

Decrypting Cryptochrome: Revealing the Molecular Identity of the Photoactivation Reaction Yazar: Ilia A. Solov’yov (1350273)

“…The unique biological function of cryptochrome supposedly arises from a photoactivation reaction involving radical pair formation through electron transfer. …”

Decrypting Cryptochrome: Revealing the Molecular Identity of the Photoactivation Reaction Yazar: Ilia A. Solov’yov (1350273)

“…The unique biological function of cryptochrome supposedly arises from a photoactivation reaction involving radical pair formation through electron transfer. …”

Decrypting Cryptochrome: Revealing the Molecular Identity of the Photoactivation Reaction Yazar: Ilia A. Solov’yov (1350273)

“…The unique biological function of cryptochrome supposedly arises from a photoactivation reaction involving radical pair formation through electron transfer. …”

Summary of inclusion decisions. Yazar: Nayra A. Martin-Key (12856953)

“…Any inconsistencies were discussed and resolved. This process was subsequently repeated with the articles’ full-text. …”

Summary of studies included in the review. Yazar: Nayra A. Martin-Key (12856953)

“…Any inconsistencies were discussed and resolved. This process was subsequently repeated with the articles’ full-text. …”

Search terms. Yazar: Nayra A. Martin-Key (12856953)

“…Any inconsistencies were discussed and resolved. This process was subsequently repeated with the articles’ full-text. …”

Proteomic Analysis of Cell Envelope from <i>Staphylococcus </i><i>xylosus</i> C2a, a Coagulase-Negative Staphylococcus Yazar: Stella Planchon (2382613)

“…This bacterium is able to form biofilms and to colonize biotic or abiotic surfaces, processes which are mediated, to a certain extent, by cell-envelope proteins. …”