Search

Your search keyword '"Wang, Zhengliang"' showing total 498 results
Start Over Author "Wang, Zhengliang"
498 results on '"Wang, Zhengliang"'

1. Statistic electromotive force of solid-state conductor P / polar liquid L / solid-state conductor N capacitor

Author

Wang, Zhengliang, Chen, Shanfei, and Wang, Gelin

Subjects
Physics - Chemical Physics
Abstract

Based on the energy conversion of the dynamic electric effect from the solid/liquid contact double electric layer is the dynamic electromotive potential, this paper studies the static appearance and the release of the electric field energy of the solid/liquid contact double electric layer, so a special capacitor (P/L/N capacitor) of solid conductor P / polar liquid L / solid conductor N is constructed. The observations based on experiments are as follows: (i) the contact double electric layer derived from the internal potential difference polarization of the solid conductor / polar liquid is equivalent to the external electric field polarization of the ordinary capacitor. The formation process of the contact double electric layer is the spontaneous charging process of the P/L/N capacitor, and the P/L/N capacitor still shows the electric field energy of the contact double electric layer. (ii) Because the polarized external potential difference of the solid conductor / polar liquid contacting the double electric layer is always less than the internal potential difference, the short-circuit P/L/N capacitor also has a continuous electromotive force after the discharge, statically releasing the electric field energy contacting the double electric layer. (iii) The contact double electric layer of solid conductor / polar liquid is produced spontaneously caused by mutual contact, and it is also a self-organizing process of absorbing the environmental heat energy into the electric field energy of the contact double electric layer. P/L/N capacitors realize thermoelectric conversion by releasing the electric field energy of the contact double electric layer. The above-mentioned phenomenon provides the possibility for the development of self-generated capacitors and self-supplied power supply., Comment: 10 pages, 5 figures

Published
2023

3. Thermovoltaic Effects of van der Waals Heterojunctions based on Inert Conductor/Solution Interfaces

Author

Wang, Zhengliang and Wang, Gelin

Subjects
Physics - Applied Physics, Physics - Chemical Physics
Abstract

It is found that if the inert conductor P has a larger electron work function $\phi$ and surface state function G than the inert conductor N, the inert conductor P and the inert conductor N are isolated by a separator and then immersed in the solution S (abbreviation: inert conductorP$\mid$solutionS$\mid$inert conductorN, or as P$\mid$S$\mid$N). Excluding the electrochemical reaction and thermoelectric effect of P$\mid$S$\mid$N, etc., it is measured that the voltage between the two conductors after the open circuit continues to increase to a certain stable maximum value. Then, the current after the closed-circuit continues to decrease to a certain stable minimum value. Analysis of the structure and properties of P$\mid$S$\mid$N shows that the inert conductor/solution interface relies on physical adsorption to construct van der Waals heterojunctions and that two van der Waals heterojunctions of different potentials form a P-N junction for P$\mid$S$\mid$N. The inert conductors P and N have different potentials. This electric field energy is expressed in the outer circuit when the circuit is open, due to the joint action of the electron work function $\phi$ and the surface state function G, P$\mid$S$\mid$N generates a larger built-in electric field and obtains a larger voltage. When the circuit is closed, P$\mid$S$\mid$N only has the effect of the surface state function G, which produces a smaller built-in electric field, results in a smaller voltage and current. This Thermoelectric conversion phenomenon is called the thermovoltaic effect., Comment: 12 pages, 5 figures

Published
2022

24. Analysis of investigation feedback on follow-up evaluation of national food safety standard - Frozen drinks and ingredients (GB 2759—2015)

Author

WANG Xiaofen, SONG Yajing, WANG Zhengliang, BIAN Jiahui, and ZHANG Yafen

Subjects
food safety standards, frozen drinks and ingredients, follow-up evaluation, feedback, Food processing and manufacture, TP368-456, Nutrition. Foods and food supply, TX341-641
Abstract

ObjectiveIn order to put forward suggestions and references for the revision of the standard, knowledge and implementation of the national food safety standard frozen drinks and ingredients (GB 2759—2015) by relevant personnel nationwide were investigated and analyzed.MethodsThe questionnaire survey was conducted. The main respondents were personnel from food production and operation enterprises, health departments, market supervision departments, testing institutions, and so on. The data were statistically analyzed by Microsoft Excel 2013 and SPSS 20.0.ResultsFour hundred and forty valid questionnaires were collected in this survey. The awareness rate of the respondents to GB 2759—2015 was 55.5% (244/440). They unanimously recognized the important role of the standard on the quality of frozen drinks and food safety, and the overall evaluation of the implementation effect was “good” (with an average of 4.42 points). Twenty-four effective feedback were received, and 36 people had opinions and suggestions accounting for 15%.ConclusionThe awareness of GB 2759—2015 among the relevant personnel was not good. There was significant difference in the awareness rate among different respondents (P

Published
2023
Full Text
View/download PDF

35. Synchronously improved luminescence efficiency and thermal stability of organic–inorganic chloride single crystals through doping of Sb3+.

Author

Chen, Zongqi, Li, Aibo, Xie, Yushan, Long, Haoqi, Zhou, Qiang, Jiang, Long, Ren, Peng, and Wang, Zhengliang

Subjects
SINGLE crystals, THERMAL stability, THERMAL efficiency, CRYSTAL structure, ENERGY transfer
Abstract

Herein, (CH3)4NMnCl3 doped with Sb3+ single crystals were grown at room temperature. The crystal structure was confirmed by the single-crystal X-ray diffraction at 293 K. The doping of Sb3+ not only improves the excitation intensity in the blue-light region but also red emission only from Mn2+. The emission intensity (Ie) of (CH3)4NMnCl3:0.5%Sb3+ is about 1.5 times higher than that of (CH3)4NMnCl3. The internal and external quantum yield (IQY and EQY) values excited by 450 nm light for the former are 78.6% and 16.0%, which are much higher than those of the latter (56.3% and 10.7%), indicating that Sb3+ can effectively transfer energy to Mn2+. Moreover, the doping of Sb3+ is beneficial to the thermal stability. The Ie of (CH3)4NMnCl3:0.5%Sb3+ at 150 °C is about 1.2 times higher than that of (CH3)4NMnCl3 at 25 °C. Meanwhile, the white LED based on (CH3)4NMnCl3:0.5%Sb3+ also exhibits good optoelectronic performance. Hence, this work provides a new strategy to explore hybrid manganese(II) chlorides for white LEDs. [ABSTRACT FROM AUTHOR]

Published
2024
Full Text
View/download PDF

36. Toughening Mechanism of CaAl 12 O 19 in Red Mud–Al 2 O 3 Composite Ceramics.

Author

Jiang, Shiwei, Li, Anmin, and Wang, Zhengliang

Subjects
INTERFACIAL reactions, CERAMIC materials, ELECTRONIC ceramics, ALUMINA composites, ELECTRONIC packaging
Abstract

The utilization of red mud in the production of ceramic products represents an efficient approach for harnessing red mud resources. Composite ceramics were prepared from Al2O3, red mud, and Cr2O3 by atmospheric pressure sintering, and the phase composition and microscopic morphology of the composite ceramics were investigated by XRD, SEM, and EDS. The flexural strength and fracture toughness of composite ceramics were measured by three-point bending and SENB methods. The results showed that the composite ceramics sintered at 1500 °C with the addition of 1.5 wt.% Cr2O3 had a flexural strength of 297.03 MPa, a hardness of 17.44 GPa, and a densification of 97.75% and fracture toughness of 6.57 MPa·m1/2. The addition of Cr2O3 helps to improve the low strength of red mud composite ceramic samples. The CaAl12O19 phase can form a similar "endo-crystalline" structure with Al2O3 grains, which changes the fracture mode of the ceramics and thus significantly improves the fracture toughness. The wettability tests conducted on Cu and RM–Al2O3 composite ceramic materials revealed that the composites exhibited non-wetting behavior towards Cu at elevated temperatures, while no interfacial reactions or elemental diffusion were observed. Composites have higher surface energy than Al2O3 ceramic at high temperatures. The present study provides a crucial foundation for enhancing the comprehensive utilization value of red mud and the application of red mud ceramics in the field of electronic packaging. [ABSTRACT FROM AUTHOR]

Published
2024
Full Text
View/download PDF

Catalog

Books, media, physical & digital resources
See catalog results