Your search keyword '"Ma, Zhiyan"' showing total 8 results

1. Construction of Dual‐Channel Water Transport in Mesoporous Silica Low Humidity Sensors to Achieve High Sensitivity.

Author

Ma, Zhiyan, Miao, Xiaoya, Song, Yaping, Yu, Yunlong, Wu, Ke, Liu, Sen, Fei, Teng, and Zhang, Tong

Published

2023

2. Formation Mechanism of a Hierarchically Porous Carbon Based on Soybean Hull Residues and Its Adsorption Performance.

Author

Ma, Zhiyan, Zhang, Yaping, Huang, Yijun, Wang, Rongmin, Wang, Zeyuan, and He, Yufeng

Subjects

*RICE hulls, *SOYBEAN, *POROSITY, *ADSORPTION (Chemistry), *SURFACES (Technology), *ADSORPTION capacity

Abstract

Soybean residue has caused pollution to the environment due to high output. Herein, in order to reutilization soybean residue, a novel soybean hulls residue based hierarchically porous carbon was prepared by one‐step carbonization‐activation, and its structure and micromorphology were characterized by SEM, FT‐IR, Raman, TEM, BET and XPS. Based on results of characterization, which illustrated typical hierarchically pore structure with pore sizes are 1000 nm, 300 nm and 1.4 nm. The specific surface area and total pore volume were corresponded to 1455.41 m2/g and 0.731 cm3/g, respectively. And the pore‐forming mechanism was discussed in raw materials is a pyrolysis process. Furthermore, it was found that adsorption capacity of dye could got to 625 mg/g in 30 min when the adsorbent was 0.05 g. In summary, the soybean hulls residue based hierarchically pore material with large surface area and rich in pore structure, which will exhibit excellent performance towards wastewater treatment. [ABSTRACT FROM AUTHOR]

Published

2023

3. Neuron‐Inspired Self‐Powered Hydrogels with Excellent Adhesion, Recyclability and Dual‐Mode Output for Multifunctional Ionic Skin.

Author

Wu, Ke, Cui, Yanyu, Song, Yaping, Ma, Zhiyan, Wang, Juan, Li, Juan, Fei, Teng, and Zhang, Tong

Subjects

WASTE recycling, HYDROGELS, METAL-organic frameworks, IONIC conductivity, ENERGY harvesting

Abstract

Hydrogels are promising materials for electronic skin due to their flexibility and modifiability. Reported hydrogel electronic skins can recognize stimulations and output signals, but the single output signal and the requirement of external power source limit their further applications. In this study, inspired by the neuron system, the self‐powered neuron system‐like hydrogels based on gelatin, water/glycerin and ionic liquid modified metal organic frameworks (MOFs) are prepared. The optimized hydrogel exhibits excellent adhesion (40 kPa), stretchability (0%–100%), water retention (>92% at 0% relative humidity (RH) atmosphere), ionic conductivity (>10−3 S m−1) and stability (>30 days). Besides, the neuron system‐like hydrogels are highly sensitive to pressure (0—10 N) and humidity (0%–75% RH) with dual‐modal output, without external power source. Finally, the optimized hydrogel ionic skin is applied in human motion detection, energy harvesting, and low humidity sensing. This study provides a preliminary exploration of self‐powered ionic skin for multi‐application scenarios. [ABSTRACT FROM AUTHOR]

Published

2023

4. Comparative transcriptomic reveals the molecular mechanism of maize hybrid Zhengdan538 in response to water deficit.

Author

Zhang, Fengqi, Ding, Yong, Zhang, Jun, Tang, Minqiang, Cao, Yanyong, Zhang, Lanxun, Ma, Zhiyan, Qi, Jianshuang, Mu, Xinyuan, Xia, Laikun, and Tang, Baojun

Subjects

GENE expression, DROUGHT tolerance, CORN breeding, TRANSCRIPTOMES, RNA sequencing, CORN

Abstract

Heterosis, known as one of the most successful strategies for increasing grain yield and abiotic/biotic stress tolerance, has been widely exploited in maize breeding. However, the underlying molecular processes are still to be elucidated. The maize hybrid "Zhengdan538" shows high tolerance to drought stress. The transcriptomes of the seedling leaves of its parents, "ZhengA88" and "ZhengT22" and their reciprocal F1 hybrid under well‐watered and water deficit conditions, were analyzed by RNA sequencing (RNA‐Seq). Transcriptome profiling of the reciprocal hybrid revealed 2994–4692 differentially expressed genes (DEGs) under well‐watered and water‐deficit conditions, which were identified by comparing with their parents. The reciprocal hybrid was more closely related to the parental line "ZhengT22" than to the parental line "ZhengA88" in terms of gene expression patterns under water‐deficit condition. Furthermore, genes showed expression level dominance (ELD), especially the high‐parental ELD (Class 3 and 5), accounted for the largest proportion of DEGs between the reciprocal F1 hybrid and their parental lines under water deficit. These ELD genes mainly participated in photosynthesis, energy biosynthesis, and metabolism processes. The results indicated that ELD genes played important roles in hybrid tolerance to water deficit. Moreover, a set of important drought‐responsive transcription factors were found to be encoded by the identified ELD genes and are thought to function in improving drought tolerance in maize hybrid plants. Our results provide a better understanding of the molecular mechanism of drought tolerance in hybrid maize. [ABSTRACT FROM AUTHOR]

Published

2022

5. Bulk analysis by resequencing and RNA‐seq identifies candidate genes for maintaining leaf water content under water deficit in maize.

Author

Zhang, Fengqi, Zhang, Jun, Ma, Zhiyan, Xia, Laikun, Wang, Xiangyang, Zhang, Lanxun, Ding, Yong, Qi, Jianshuang, Mu, Xinyuan, Zhao, Faxin, Ji, Tianhui, and Tang, Baojun

Subjects

DROUGHT tolerance, LOCUS (Genetics), RNA sequencing, CORN, GENES, CORN breeding, X chromosome

Abstract

Drought is one of the main abiotic stresses adversely affecting maize growth and grain yield. Identifying drought tolerance‐related genes and breeding varieties with enhanced tolerance are effective strategies for minimizing the effects of drought stress. In this study, the leaf relative water content (LRWC) was used for evaluating drought tolerance. QTL‐seq analysis of 419 F2 individuals from a cross between ZhengT22 (the drought‐tolerant line with high LRWC) and ZhengA88 (the drought‐sensitive line with low LRWC) revealed four LRWC‐related QTLs (qLRWC2, qLRWC10a, qLRWC10b, and qLRWC10c) in maize seedlings under water deficit. Of these QTLs, qLRWC2 was located in a 2.03‐Mb interval on chromosome 2, whereas qLRWC10a, qLRWC10b, and qLRWC10c were located in 2.85‐, 3.99‐, and 2.05‐Mb intervals, respectively, on chromosome 10, and the 93 genes contained the variation loci locating in the four QTLs regions. To identify the candidate genes within the QTLs, an RNA‐seq analysis was performed for the parents exposed to water deficit. Seven genes with effective variation loci showed significant difference in expression either in ZhengA88 or ZhengT22 in response to water deficit. Moreover, among the genes, ZmPrx64, ZmCIPK, HSP90, and ABCG34 have all been shown to be related to water stress in the previous studies. Thus, they are primary considered as the potential candidate genes controlling LRWC under water deficit at the seeding stage of maize in this study. These findings will help clarify the molecular basis of drought tolerance in maize seedlings and may be relevant for future functional analysis and for breeding drought‐tolerant maize varieties. [ABSTRACT FROM AUTHOR]

Published

2021

6. Synthesis, characterization, DNA binding, cytotoxicity and molecular docking properties of three novel butterfly‐like complexes with nitrogen‐containing heterocyclic ligands.

Author

Gao, Enjun, Li, Zhipeng, Zhu, Xiaopeng, Ma, Zhiyan, and Zhu, Mingchang

Subjects

CARBENE synthesis, FLUORESCENCE spectroscopy, MOLECULAR docking, MOLECULAR structure, DNA, HELA cells, ABSORPTION spectra

Abstract

Three novel complexes, namely [Nd·L1·HCOO·(H2O)4] (1), [Pr·L1·HCOO·(H2O)4] (2) and [In·L2·Cl·(H2O)2] (3) (L1 = 1,1‐bis(5‐(pyrazin‐2‐yl)‐1,2,4‐triazol‐3‐yl)methane, L2 = 1,1‐bis(5‐(pyrazin‐2‐yl)‐1,2,4‐triazol‐3‐yl)ketone), were synthesized and characterized. The molecular structures of 1–3 were confirmed using single‐crystal X‐ray diffraction. All three obtained complexes are zero‐dimensional and connected to each other by hydrogen bonds. In 1 and 2 the metal is surrounded by nine donors and 3 has seven coordination sites. The interaction of 1–3 with calf thymus DNA (CT‐DNA) was explored using UV absorption spectra and fluorescence spectra. The intrinsic binding constants of 1–3 with CT‐DNA are about 1.9 × 104, 1.4 × 104 and 1.1 × 104, respectively. Stern–Volmer quenching plots of 1–3 have slopes of 0.1508, 0.134 and 0.1205, respectively. The ability of these complexes to cleave pBR322 plasmid DNA was demonstrated using gel electrophoresis assay. Apoptosis studies of the three novel complexes showed a significant inhibitory effect on HeLa cells. Furthermore, MTT assays were used to evaluate the anticancer activity of the three complexes. The cytotoxicity study indicated that complex 1 possesses a higher inhibitory rate of HeLa cells than the other complexes. Especially, the efficacy of 1 was shown to be the highest for cisplatin at 24 h. A further molecular docking technique was introduced to understand the binding of the complexes toward the target DNA. [ABSTRACT FROM AUTHOR]

Published

2020

7. Bio-based epoxy vitrimers: Reprocessibility, controllable shape memory, and degradability.

Author

Ma, Zhiyan, Wang, Yan, Zhu, Jing, Yu, Junrong, and Hu, Zuming

Subjects

*CROSSLINKED polymers, *SHAPE memory polymers, *BIODEGRADATION, *RECYCLABLE material, *DISULFIDES, *EPOXY resins

Abstract

ABSTRACT The research activities in the development of recyclable and reprocessable covalently crosslinked networks, and the construction of polymers from renewable resources are both stemmed from the economical and environmental problems associated with traditional thermosets. However, there is little effort in combination of these two attractive strategies in material designs. This article reported a bio-based vitrimer constructed from isosorbide-derived epoxy and aromatic diamines containing disulfide bonds. The resulted dynamic epoxy resins showed comparable thermomechanical properties as compared to similar epoxy networks cured by traditional curing agent. Rheological tests demonstrated the fast stress relaxation of the dynamic network due to the rapid metathesis of disulfide bonds at temperature higher than glass transition temperature. This feature permitted the recycling and reprocessing of the fragmented samples for several times by hot press. The dynamic epoxy resins also exhibited shape-memory effect, and it is demonstrated that the shape recovery ratio could be readily adjusted by controlling the stress relaxation in the temporary state at programming temperature. Moreover, the degradability of the dynamic epoxy resins in alkaline aqueous solution was also demonstrated. © 2017 Wiley Periodicals, Inc. J. Polym. Sci., Part A: Polym. Chem. 2017, 55, 1790-1799 [ABSTRACT FROM AUTHOR]

Published

2017

8. Metal‐Free C–S Bond Cleavage to Access N‐Substituted Acrylamide and β‐Aminopropanamide.

Author

Yang, Ke, Li, Yi, Ma, Zhiyan, Tang, Long, Yin, Yue, Zhang, Hao, Li, Zhengyi, and Sun, Xiaoqiang

Subjects

SCISSION (Chemistry), ACRYLAMIDE, FUNCTIONAL groups

Abstract

Metal‐free and Selectfluor‐mediated C–S bond cleavage is described. This novel strategy provides a facile and efficient method to access important N‐substituted acrylamide and β‐aminopropanamide derivatives with good functional group tolerance and yields. [ABSTRACT FROM AUTHOR]

Published

2019