Chao Fan scite author profile

The stoichiometric RuO 2 (110) surface is terminated by bridge-coordinated oxygen atoms (O β ) and by coordinatively unsaturated Ru (Ru cus ) atoms. Exposure to gaseous O 2 leads to the formation of two additional surface species: a molecularly chemisorbed state (O δ ) bridging two neighboring Ru cus atoms and weakly held O atoms (O γ ) in terminal position above the Ru cus atoms. Characterization of the energetics and kinetics as well as structural, vibrational, and electronic properties is achieved by combined application of experimental (low-energy electron diffraction, high-resolution electron loss spectroscopy, thermal desorption spectroscopy) and theoretical (density functional theory) methods. The interplay between the different oxygen species accounts for the high sticking coefficient for dissociative adsorption as well as for the continuous restoration of the surface structure in the course of catalytic oxidation reactions. † Dedicated to Professor J. T. Yates on the occasion of his 65th birthday. Part of the special issue "John T. Yates, Jr. Festschrift".

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Low temperature electrical transport and photoresponsive properties of H-doped MoO₃nanosheets

Yang

et al. 2014

J. Mater. Chem. C

172

213

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Structure and mechanism of a glutamate–GABA antiporter

Yan

et al. 2012

Nature

184

201

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Structures of bacterial homologues of SWEET transporters in two distinct conformations

Tao

Cheung

et al. 2014

Nature

148

203

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SemiSWEETs and SWEETs are mono- and disaccharide transporters present from Archaea to higher plants and humans1-3. SWEETs play crucial roles in cellular sugar efflux processes, i.e. phloem loading4, pollen nutrition5 and nectar secretion6. Their bacterial homologs, SemiSWEETs, are among the smallest known transporters1,3. Here we show SemiSWEET, consisting of a triple-helix-bundle (THB), forms a symmetric parallel dimer to create the translocation pathway. Two SemiSWEET isoforms were crystallized in apparent open and occluded states, indicating that SemiSWEETs/SWEETs are transporters that undergo rocking-type movements during the transport cycle. The topology of THB is similar to the basic building block in MFS transporters (GLUTs, SUTs), indicating that they may have evolved from an ancestral THB into a parallel configuration to produce 6/6+1 transmembrane-helix pores for SemiSWEETs/SWEETs, and an antiparallel configuration of 2×2 THBs to generate 12 transmembrane-helix pores for MFS transporters. Given the similarity of SemiSWEETs/SWEETs to PQ-loop amino acid transporters and mitochondrial MPC organic acid transporters, the structures characterized here may also be relevant for other MtN3 clan transporters7-9.

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Chao Fan

Characterization of Various Oxygen Species on an Oxide Surface: RuO₂(110)

Low temperature electrical transport and photoresponsive properties of H-doped MoO₃nanosheets

Structure and mechanism of a glutamate–GABA antiporter

Structures of bacterial homologues of SWEET transporters in two distinct conformations

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Chao Fan

Characterization of Various Oxygen Species on an Oxide Surface: RuO2(110)

Low temperature electrical transport and photoresponsive properties of H-doped MoO3nanosheets

Structure and mechanism of a glutamate–GABA antiporter

Structures of bacterial homologues of SWEET transporters in two distinct conformations

Contact Info

Product

Resources

About

Characterization of Various Oxygen Species on an Oxide Surface: RuO₂(110)

Low temperature electrical transport and photoresponsive properties of H-doped MoO₃nanosheets