Wuming Wu scite author profile

In this work, the dual signal-tagged hairpin structured DNA (dhDNA)-based ratiometric probe was developed by the combination of ferrocene-labeled signal probe (Fc-sP) and methylene blue-modified inner reference probe (MB-rP) in one hairpin-structured DNA. On the basis of this, a high-performance ratiometric electrochemical method was proposed for biomarker detection. In contrast to the conventional ratiometric electrochemical probe, this dhDNA ratiometric probe integrated sP and rP into one structure, which ensured the completely same modification condition and the interdependence of sP and rP on one sensing interface. As a result, the dhDNA ratiometric probe possesses a stronger ability to eliminate the disturbance of environmental change, which was proven by the fact that the changes of the surface roughness and pH value had no significant effects on the reproducibility and stability of the sensor. Moreover, in the proposed strategy, the initial ratio responses of Fc-sP to MB-rP ((I/I)) are controllable and can be kept constant at 1:1, which is favorable for the increase in signal-to-noise ratio and sensitivity. When the sequence of Fc-sP is designed as the aptamer of mucin 1 (MUC1), the dhDNA ratiometric sensor with signal amplification of Au nanoparticles becomes feasible for the sensitive detection of MUC1 by one-step incubation procedure. Compared with the conventional ratiometric sensor, the proposed dhDNA sensor has higher reproducibility, accuracy, stability, sensitivity, and simplicity, which are significant for the development of the sensor in various fields for practical applications.

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Propagation of ring Airy Gaussian beams with optical vortices through anisotropic non-Kolmogorov turbulence

Zhi

Tao

Zhang

et al. 2017

Optics Communications

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A new hybrid coding for protein secondary structure prediction based on primary structure similarity

Wang

Zhang

et al. 2017

Gene

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High-power tunable mid-infrared fiber gas laser source by acetylene-filled hollow-core fibers

Zhou

Tang

et al. 2018

Opt. Express

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High-power tunable pulsed and CW mid-infrared fiber gas laser sources in acetylene-filled hollow-core fibers, to the best of our knowledge, are demonstrated for the first time. By precisely tuning the wavelength of the pump source, an amplified tunable 1.5 μm diode laser, to match different absorption lines of acetylene, the laser output is step-tunable in the range of 3.09~3.21 μm with a maximum pulse average power of ~0.3 W (~0.6 μJ pulse energy) and a maximum CW power of ~0.77 W, making this system the first watt-level tunable fiber gas laser operating at mid-infrared range. The output spectral and power characteristics are systemically studied, and the explanations about the change of the ratio of the P over R branch emission lines with the pump power and the gas pressure are given, which is useful for the investigations of mid-infrared fiber gas lasers.

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Realization of large energy proportion in the central lobe by coherent beam combination based on conformal projection system

Zhi

Zhang

et al. 2017

Sci Rep

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In this paper, we experimentally validate a tiled-aperture conformal projection system with the largest array filling factor and element beam truncation factor to the best of our knowledge. The conformal projection system, which is made up of a hexagonal adaptive fiber-optics collimator (AFOC) array with the proximate ideal intensity distributions, is fabricated and the performance of output beam is tested and evaluated properly and carefully. Both of the active phase-locking control and precise tip-tilt control are implemented successfully in the CBC of the hexagonal seven-beam-array. Experimental results show a large energy proportion (47%, which increases by over 10% comparing with the previously demonstrated largest value) in the central lobe is achieved and the residual phase error is lower than λ/27. When the AFOC array performs, the precise tilt control makes the combining beams overlap well and the average normalized metric value is improved from 0.336 without control to 0.947 with both of active piston and tip-tilt phase controls while the fringe contrast increases from 19% to more than 91% correspondingly. This work presents a promising structure for the achievement of large energy proportion in the central lobe in high power fiber laser CBC systems.

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Wuming Wu

High-Performance Ratiometric Electrochemical Method Based on the Combination of Signal Probe and Inner Reference Probe in One Hairpin-Structured DNA

Propagation of ring Airy Gaussian beams with optical vortices through anisotropic non-Kolmogorov turbulence

A new hybrid coding for protein secondary structure prediction based on primary structure similarity

High-power tunable mid-infrared fiber gas laser source by acetylene-filled hollow-core fibers

Realization of large energy proportion in the central lobe by coherent beam combination based on conformal projection system

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