Ying Tan scite author profile

Synthesis of nanocrystals with exposed high-energy facets is a well-known challenge in many fields of science and technology. The higher reactivity of these facets simultaneously makes them desirable catalysts for sluggish chemical reactions and leads to their small populations in an equilibrated crystal. Using anatase TiO 2 as an example, we demonstrate a facile approach for creating high surface area, stable nanosheets comprised of nearly 100% exposed (001) facets. Our approach relies on spontaneous assembly of the nanosheets into three-dimensional, hierarchical spheres that stabilizes them from collapse. We show that the high surface density of exposed TiO 2 (001) facets leads to fast lithium insertion/deinsertion processes in batteries that mimic features seen in high power electrochemical capacitors.2

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Plasmon-induced carrier polarization in semiconductor nanocrystals

Yin

Tan

Fang

et al. 2018

Nature Nanotech

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Spintronics and valleytronics are emerging quantum electronic technologies that rely on using electron spin and multiple extrema of the band structure (valleys), respectively, as additional degrees of freedom. There are also collective properties of electrons in semiconductor nanostructures that potentially could be exploited in multifunctional quantum devices. Specifically, plasmonic semiconductor nanocrystals offer an opportunity for interface-free coupling between a plasmon and an exciton. However, plasmon-exciton coupling in single-phase semiconductor nanocrystals remains challenging because confined plasmon oscillations are generally not resonant with excitonic transitions. Here, we demonstrate a robust electron polarization in degenerately doped InO nanocrystals, enabled by non-resonant coupling of cyclotron magnetoplasmonic modes with the exciton at the Fermi level. Using magnetic circular dichroism spectroscopy, we show that intrinsic plasmon-exciton coupling allows for the indirect excitation of the magnetoplasmonic modes, and subsequent Zeeman splitting of the excitonic states. Splitting of the band states and selective carrier polarization can be manipulated further by spin-orbit coupling. Our results effectively open up the field of plasmontronics, which involves the phenomena that arise from intrinsic plasmon-exciton and plasmon-spin interactions. Furthermore, the dynamic control of carrier polarization is readily achieved at room temperature, which allows us to harness the magnetoplasmonic mode as a new degree of freedom in practical photonic, optoelectronic and quantum-information processing devices.

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Host Cell Transcriptome Profile during Wild-Type and Attenuated Dengue Virus Infection

et al. 2013

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Dengue viruses 1–4 (DENV1-4) rely heavily on the host cell machinery to complete their life cycle, while at the same time evade the host response that could restrict their replication efficiency. These requirements may account for much of the broad gene-level changes to the host transcriptome upon DENV infection. However, host gene function is also regulated through transcriptional start site (TSS) selection and post-transcriptional modification to the RNA that give rise to multiple gene isoforms. The roles these processes play in the host response to dengue infection have not been explored. In the present study, we utilized RNA sequencing (RNAseq) to identify novel transcript variations in response to infection with both a pathogenic strain of DENV1 and its attenuated derivative. RNAseq provides the information necessary to distinguish the various isoforms produced from a single gene and their splice variants. Our data indicate that there is an extensive amount of previously uncharacterized TSS and post-transcriptional modifications to host RNA over a wide range of pathways and host functions in response to DENV infection. Many of the differentially expressed genes identified in this study have previously been shown to be required for flavivirus propagation and/or interact with DENV gene products. We also show here that the human transcriptome response to an infection by wild-type DENV or its attenuated derivative differs significantly. This differential response to wild-type and attenuated DENV infection suggests that alternative processing events may be part of a previously uncharacterized innate immune response to viral infection that is in large part evaded by wild-type DENV.

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Investigating β-Hydroxyenduracididine Formation in the Biosynthesis of the Mannopeptimycins

Haltli¹,

Tan

Magarvey

et al. 2005

Chemistry & Biology

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The mannopeptimycins (MPPs) are potent glycopeptide antibiotics that contain both D and L forms of the unique, arginine-derived amino acid beta-hydroxyenduracididine (betahEnd). The product of the mppO gene in the MPP biosynthetic cluster resembles several non-heme iron, alpha-ketoglutarate-dependent oxygenases, such as VioC and clavaminate synthase. The role of MppO in betahEnd biosynthesis was confirmed through inactivation of mppO, which yielded a strain that produced dideoxy-MPPs, indicating that mppO is essential for generating the beta-hydroxy functionality for both betahEnd residues. Characterization in vitro of recombinant His6-MppO expressed in E. coli revealed that MppO selectively hydroxylates the beta carbon of free L-enduracididine.

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Ying Tan

Constructing Hierarchical Spheres from Large Ultrathin Anatase TiO₂ Nanosheets with Nearly 100% Exposed (001) Facets for Fast Reversible Lithium Storage

Plasmon-induced carrier polarization in semiconductor nanocrystals

Host Cell Transcriptome Profile during Wild-Type and Attenuated Dengue Virus Infection

Investigating β-Hydroxyenduracididine Formation in the Biosynthesis of the Mannopeptimycins

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Ying Tan

Constructing Hierarchical Spheres from Large Ultrathin Anatase TiO2 Nanosheets with Nearly 100% Exposed (001) Facets for Fast Reversible Lithium Storage

Plasmon-induced carrier polarization in semiconductor nanocrystals

Host Cell Transcriptome Profile during Wild-Type and Attenuated Dengue Virus Infection

Investigating β-Hydroxyenduracididine Formation in the Biosynthesis of the Mannopeptimycins

Contact Info

Product

Resources

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Constructing Hierarchical Spheres from Large Ultrathin Anatase TiO₂ Nanosheets with Nearly 100% Exposed (001) Facets for Fast Reversible Lithium Storage