Your search keyword '"Guo, Zhaoxin"' showing total 5 results

1. Increased new particle yields with largely decreased probability of survival to CCN size at the summit of Mt. Tai under reduced SO2 emissions

Author

Zhu, Yujiao, Xue, Likun, Gao, Jian, Chen, Jianmin, Li, Hongyong, Zhao, Yong, Guo, Zhaoxin, Chen, Tianshu, Wen, Liang, Zheng, Penggang, Shan, Ye, Wang, Xinfeng, Wang, Tao, Yao, Xiaohong, and Wang, Wenxing

Abstract

Because anthropogenic sulfur dioxide (SO2) emissions have decreased considerably in the last decade, PM2.5 pollution in China has been alleviated to some extent. However, the effects of reduced SO2 on the particle number concentrations and subsequent contributions of grown new particles to cloud condensation nuclei (CCN) populations, particularly at high altitudes with low aerosol number loadings, are poorly understood. In contrast, the increase in provincial forest areas in China with rapid afforestation over the last few decades expectedly increases the biogenic emissions of volatile organic compounds and their oxidized products as nucleating precursors therein. In this study, we evaluated the campaign-based measurements made at the summit of Mt. Tai (1534 m a.s.l.) from 2007 to 2018. With the decrease in SO2 mixing ratios from 15 ± 13 ppb in 2007 to 1.6 ± 1.6 ppb in 2018, the apparent formation rate (FR) of new particles and the net maximum increase in the nucleation-mode particle number concentration (NMINP) in the spring campaign of 2018 was 2- to 3-fold higher than those in the spring campaign of 2007 with almost the same occurrence frequency of new particle formation (NPF) events. In contrast, the campaign-based comparison showed that the occurrence frequency, in which the maximum geometric median diameter of the grown new particles (Dpgmax) was > 50 nm, decreased considerably from 43 %–78 % of the NPF events before 2015 to < 12 % in 2017–2018. Assuming > 50 nm as a CCN threshold size at high supersaturations, the observed net CCN production decreased from 3.7 × 103 cm−3 (on average) in the five campaigns before 2015 to 1.0 × 103 cm−3 (on average) in the two campaigns in 2017–2018. We argue that the increases in the apparent FR and NMINP are mainly determined by the availability of organic precursors that participate in nucleation and initial growth, whereas the decrease in the growth probability is caused by the reduced emissions of anthropogenic precursors. However, large uncertainties still exist because of a lack of data on the chemical composition of these smaller particles.

Published

2021

2. The effect of Ni oxidation state on the crystal structure and electrochemical properties of LiNi0.8Co0.1Mn0.1O2 cathode material for highly reversible lithium storage

Author

Gang Yang, Weizhi Kou, Guo Zhaoxin, Shuang Zhang, Yuanyuan Feng, Hongmei Ji, and Jian Zhaoqiang

Subjects

Materials science, Scanning electron microscope, Mechanical Engineering, Metals and Alloys, chemistry.chemical_element, 02 engineering and technology, 010402 general chemistry, 021001 nanoscience & nanotechnology, Electrochemistry, 01 natural sciences, Redox, Cathode, 0104 chemical sciences, law.invention, Chemical engineering, X-ray photoelectron spectroscopy, chemistry, Mechanics of Materials, law, Transmission electron microscopy, Materials Chemistry, Lithium, Crystallite, 0210 nano-technology

Abstract

In this work, Ni-rich layered micron-sized LiNi0.8Co0.1Mn0.1O2 (SC-NCM) single crystals were prepared by wet ball-milling and molten-salt methods. Through X-ray diffraction (XRD), scanning electron microscopy (SEM), transmission electron microscopy (TEM) and X-ray photoelectron spectrometry (XPS), the differences between SC-NCM and a commercial polycrystalline micron-sized NCM material (M-NCM) were compared. An extended sintering process for SC-NCM plays a role in decreasing cationic mixing accompanied by the ordered growth of single crystals. The SC-NCM sample presents homogeneous micron-sized crystals. The Ni3+ content in SC-NCM constitutes 90.45% of the total Ni content, while the Ni3+ in M-NCM constitutes only 68.49%. The existence of Ni2+ in ternary cathode materials is harmful to electrochemical stability and cyclic stability. The initial specific discharge capacity of SC-NCM (168 mAh g−1) is lower than that of M-NCM (187 mAh g−1); however, M-NCM shows a rapid decline in capacities and voltage plateaus from the 1st to 180th cycle. After 300 cycles at a 5 C rate, M-NCM remains only 42 mAh g−1 with a capacity retention rate of only 25.6% in comparison with SC-NCM with a remaining capacity of 80.7 mAh g−1 and a capacity retention of 62.0%. The effect of micron-sized single crystals on electrochemical properties during redox reactions is negative in terms of conductivity but positive in terms of structural stability.

Published

2021

3. Design and experiment of a PDMS-based PCR chip with reusable heater of optimized electrode

Author

Xiaosheng Wu, Feng Cui, Wei Chen, Guo Zhaoxin, Wenyuan Chen, Weiping Zhang, and Wu Liu

Subjects

Microelectromechanical systems, Fabrication, Materials science, Temperature control, Thermal cycler, business.industry, Multiphysics, 010401 analytical chemistry, 02 engineering and technology, Pcr chip, 021001 nanoscience & nanotechnology, Condensed Matter Physics, Chip, 01 natural sciences, 0104 chemical sciences, Electronic, Optical and Magnetic Materials, Hardware and Architecture, Electrode, Electronic engineering, Optoelectronics, Electrical and Electronic Engineering, 0210 nano-technology, business

Abstract

A low-cost separable PCR chip, consisting of a reusable electrode part and a disposable PDMS-glass bonded chamber part, is presented. To achieve spatial uniformity of temperature over the whole reactive chamber, the heater of the electrode part with optimized electrode patterns based on traditional serpentine meanders was designed and simulated by using COMSOL Multiphysics. The separable PCR chip was fabricated using MEMS fabrication method. A temperature control thermal cycler system based on ARM microcontroller employing fuzzy-PID algorithm was constructed to provide the PCR required temperatures of denaturation, annealing and extension of each cycle. A thermal infrared imager was used to test the temperature distribution of the fabricated PCR chip. The temperature field simulation and infrared imager test verified that the heater with optimized electrode pattern can provide uniform temperature distribution in the area of the chamber where horizontal temperature fluctuation was within 1 °C. The performances of the microchip and the temperature control system were verified by β-actin gene PCR experiment. The 239 bp DNA segment of 6 μL sample in the micro-PCR chip was successfully amplified similarly to that in the conventional PCR instrument. The experiment proves that the fabricated PCR chip employing reusable heater of optimized electrode can provide efficient DNA amplification product while with less total time than the conventional PCR device. Multiple separable PCR chips with its reusable electrodes part employing the multi-channel thermal cycler system will be feasible for multiple DNA amplification.

Published

2016

4. Polymerase chain reaction chip with microchannel of glass capillaries embedded

Author

Xiaosheng Wu, Wenyuan Chen, Weiping Zhang, Guo Zhaoxin, Feng Cui, and Wu Liu

Subjects

chemistry.chemical_classification, Microchannel, Materials science, business.industry, Nanotechnology, Polymer, Substrate (printing), Chip, chemistry, Etching (microfabrication), Optoelectronics, Wafer, Adhesive, Electrical and Electronic Engineering, business, Lithography

Abstract

Polymerase chain reaction (PCR) chips consume less power and reagent, and are cheaper and easily integrated. In most PCR chips, the heater and the thermometer are placed on the same surface, which causes significant temperature sensing error caused by radiation from the heater. Most microchannels are fabricated through expensive processes of polymer mould-replication, etching or lithography. Some polymers used to form the chamber have bad bio-compatibility and suffer air bubbles when heating. A novel PCR chip with a glass structure is proposed. Grooves are machined on top of the glass substrate, and the glass capillaries are embedded in the grooves to form the static chamber. On the bottom of the glass substrate, the heater is patterned. The substrate with capillaries embedded is covered by a glass slice. The thermometer is fabricated on the bottom surface of the slice. The glass substrate and slice are joined by thermal conductive adhesive. In the PCR chip, the parts except the glass capillaries are reusable. DNA amplification experiments show that the PCR chip works fairly well. The proposed PCR chip has the characteristics of better temperature sensing precision, low cost, no air bubbles, good tightness and bio-compatibility. It is very suitable for home diagnosis use.

Published

2015

5. Fault Detection and Diagnosis Based on Time Petri Net

Author

Xie Yue, Guo Zhaoxin, Chen Guangju, and Wang Xiaoli

Subjects

Task (computing), Automatic control, Asynchronous communication, Computer science, Distributed computing, Real-time computing, Stochastic Petri net, Petri net, Fault (power engineering), Fault detection and isolation, System dynamics

Abstract

Fault detection and diagnosis (FDD) for discrete event system (DES) is a crucial task in automatic control. Petri nets have been widely used to model and analyze DES because of the ability of capturing asynchronous and concurrent system dynamics, and time Petri net is a kind of time extension of Petri net. We know that the Petri net of given system can't be diagnosable when there exists uncertain cycle, this is the limitation of fault detection and diagnosis using untimed Petri net. To overcome the limitation, we introduce the time Petri net (TPN) to model the system in this paper. According to the observed events and time, we show how to perform fault detection and diagnosis by the time-analysis. The method proposed in this paper can realize the fault diagnosis that can't be diagnosed due to the existence of uncertain cycle such as F-confused place. Furthermore, the method can diagnose the time-dependent fault in system. The method is straightforward and available. One example is provided for illustration.

Published

2007