Tao Zeng scite author profile

Molecular imaging is an essential tool for disease diagnostics and treatment. Direct imaging of low-abundance nucleic acids in living cells remains challenging because of the relatively low sensitivity and insufficient signal-to-background ratio of conventional molecular imaging probes. Herein, we report a class of DNA-templated gold nanoparticle (GNP)-quantum dot (QD) assembly-based probes for catalytic imaging of cancer-related microRNAs (miRNA) in living cells with signal amplification capacity. We show that a single miRNA molecule could catalyze the disassembly of multiple QDs with the GNP through a DNA-programmed thermodynamically driven entropy gain process, yielding significantly amplified QD photoluminescence (PL) for miRNA imaging. By combining the robust PL of QDs with the catalytic amplification strategy, three orders of magnitude improvement in detection sensitivity is achieved in comparison with non-catalytic imaging probe, which enables facile and accurate differentiation between cancer cells and normal cells by miRNA imaging in living cells.

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The Contribution of Electrical Conductivity, Dielectric Permittivity and Domain Switching in Ferroelectric Hysteresis Loops

Yan

et al. 2011

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Triangular voltage waveform was employed to distinguish the contributions of dielectric permittivity, electric conductivity and domain switching in current-electric field curves. At the same time, it is shown how those contributions can affect the shape of the electric displacement — electric field loops (D–E loops). The effects of frequency, temperature and microstructure (point defects, grain size and texture) on the ferroelectric properties of several ferroelectric compositions is reported, including: BaTiO 3; lead zirconate titanate (PZT); lead-free Na 0.5 K 0.5 NbO 3; perovskite-like layer structured A 2 B 2 O 7 with super high Curie point (T c ); Aurivillius phase ferroelectric Bi 3.15 Nd 0.5 Ti 3 O 12; and multiferroic Bi 0.89 La 0.05 Tb 0.06 FeO 3. This systematic study provides an instructive outline in the measurement of ferroelectric properties and the analysis and interpretation of experimental data.

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A comparative study of different binders and their effects on electrochemical properties of LiMn 2 O 4 cathode in lithium ion batteries

Zhang¹,

Zeng²,

Lai³

et al. 2014

Journal of Power Sources

197

139

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Facile Synthesis of Magnetic Covalent Organic Framework with Three-Dimensional Bouquet-Like Structure for Enhanced Extraction of Organic Targets

Zeng

Wang

et al. 2017

ACS Appl. Mater. Interfaces

227

112

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A facile strategy for the fabrication of novel bouquet-shaped magnetic porous nanocomposite via grafting a covalent organic framework (COF, TpPa-1) onto the surface-modified FeO nanoparticles (FeO NPs) was reported. The magnetic TpPa-1 (a COF synthesized from 1,3,5-triformylphloroglucinol (Tp) and p-phenylenediamine (Pa-1)) contains clusters of core-shell magnetic nanoparticles and interconnected porous TpPa-1 nanofibers. Thus, it possesses larger specific surface area, higher porosity, and supermagnetism, making it an ideal sorbent for enrichment of trace analytes. Its performance was evaluated by the magnetic solid-phase extraction (MSPE) of trace polycyclic aromatic hydrocarbons (PAHs) from environmental samples prior to high-performance liquid chromatographic analysis. The results indicated that the magnetic TpPa-1 possessed superior enrichment capacity of such organic compounds.

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A novel Fe3O4–graphene–Au multifunctional nanocomposite: green synthesis and catalytic application

et al. 2012

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A facile, economical, and low-toxicity approach was proposed to coat gold nanoparticles (Au NPs) on the surface of graphene-encapsulated magnetic microspheres. The current method makes it possible to integrate Fe 3 O 4 NPs and metal NPs with graphene without any interference or site competition. Dopamine serves as a reducing agent as well as a coupling agent for the assembly of reduced graphene oxide (RGO) and Au NPs on magnetic cores, so that no additional chemicals and thermal treatments are needed. The X-ray photoelectron spectroscopy (XPS), X-ray diffraction (XRD), and Fourier transform infrared spectroscopy (FTIR) results demonstrate that GO is successfully deoxygenated by the reduction of the PDA layer, while transmission electron microscopy (TEM), scanning electron microscopy (SEM), and inductively coupled plasma mass spectrometry (ICP-MS) results indicate that plenty of Au NPs (about 7.3 nm in diameter) are homogeneously distributed onto the surface of RGO and the Au content of the composite is 13.58 wt%. The high Au content endows the nanocatalyst with great catalytic performance towards the reduction of o-nitroaniline to benzenediamine by NaBH 4 (completely transformation within 4 min). Furthermore, the as-prepared catalyst can be easily recovered and reused at least ten times due to the high magnetization and stability.

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Tao Zeng

Catalytic Molecular Imaging of MicroRNA in Living Cells by DNA‐Programmed Nanoparticle Disassembly

The Contribution of Electrical Conductivity, Dielectric Permittivity and Domain Switching in Ferroelectric Hysteresis Loops

A comparative study of different binders and their effects on electrochemical properties of LiMn 2 O 4 cathode in lithium ion batteries

Facile Synthesis of Magnetic Covalent Organic Framework with Three-Dimensional Bouquet-Like Structure for Enhanced Extraction of Organic Targets

A novel Fe3O4–graphene–Au multifunctional nanocomposite: green synthesis and catalytic application

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