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Your search keyword '"Zhu, Wenpeng"' showing total 40 results
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40 results on '"Zhu, Wenpeng"'

1. Creation of independently controllable and long lifetime polar skyrmion textures in ferroelectric-metallic heterostructures

Author

Sun, Fei, Ren, Jianhua, Li, Hongfang, Wu, Yiwei, Liang, Jianwei, Yang, Hui, Zhang, Yi, Liu, Jianyi, Liu, Linjie, Wu, Mengjun, Zhang, Xiaoyue, Zhu, Wenpeng, Chen, Weijin, and Zheng, Yue

Subjects
Condensed Matter - Materials Science
Abstract

Topological textures like vortices, labyrinths and skyrmions formed in ferroic materials have attracted extensive interests during the past decade for their fundamental physics, intriguing topology, and technological prospects. So far, polar skyrmions remain scarce in ferroelectrics as they require a delicate balance between various dipolar interactions. Here, we report that PbTiO3 thin films in a metallic contact undergo a topological phase transition and stabilize a broad family of skyrmion-like textures (e.g., skyrmion bubbles, multiple {\pi}-twist target skyrmions, and skyrmion bags) with independent controllability, analogous to those reported in magnetic systems. Weakly-interacted skyrmion arrays with a density over 300 Gb/inch2 are successfully written, erased and read-out by local electrical and mechanical stimuli of a scanning probe. Interestingly, in contrast to the relatively short lifetime <20 hours of the skyrmion bubbles, the multiple {\pi}-twist target skyrmions and skyrmion bags show topology-enhanced stability with lifetime over two weeks. Experimental and theoretical analysis implies the heterostructures carry electric Dzyaloshinskii-Moriya interaction mediated by oxygen octahedral tiltings. Our results demonstrate ferroelectric-metallic heterostructures as fertile playground for topological states and emergent phenomena.

Published
2024

3. Trends and Projections of Incidence and Mortality of Nasopharyngeal Carcinoma in China from 1990 to 2019

Author

ZHU Wenpeng, HAN Mengqi, WANG Yuxin, WANG Guoping

Subjects
nasopharyngeal carcinoma, burden of illness, incidence, mortality, age-period-cohort model, Medicine
Abstract

Background In 2020, there were 62 000 new cases of nasopharyngeal carcinoma (NPC) in China, accounting for about 80% of the NPC cases worldwide. Analysis of the trend and projection of the incidence and mortality of NPC can provide a scientific basis for the prevention and treatment of NPC. Objective To evaluate the trend of incidence and mortality of NPC in Chinese residents, and explore the effects of age, period and cohort on the risk of incidence and death of NPC. Methods From December 2022 to January 2023, data on the ASIR (age standardized incidence rate) and ASMR (age standardized mortality rate) of NPC in China were extracted from the Global Burden of Disease 2019 database. The Joinpoint regression model was used to analyze the trends in ASIR and ASMR of NPC in China from 1990 to 2019. The age-period-cohort model was used to analyze the age effect, period effect and cohort effect affecting the risk of incidence and death of NPC in China. The ASIR and ASMR of NPC in China in the next 20 years were predicted using the R BAPC package. Results There was an overall increasing trend in ASIR of NPC (AAPC=1.82, P

Published
2023
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10. Biological and environmental interactions of emerging two-dimensional nanomaterials

Author

Wang, Zhongying, Zhu, Wenpeng, Qiu, Yang, Yi, Xin, von dem Bussche, Annette, Kane, Agnes, Gao, Huajian, Koski, Kristie, and Hurt, Robert

Subjects
Macromolecular and Materials Chemistry, Engineering, Chemical Sciences, Affordable and Clean Energy, Environment, Nanostructures, General Chemistry, Chemical sciences
Abstract

Two-dimensional materials have become a major focus in materials chemistry research worldwide with substantial efforts centered on synthesis, property characterization, and technological application. These high-aspect ratio sheet-like solids come in a wide array of chemical compositions, crystal phases, and physical forms, and are anticipated to enable a host of future technologies in areas that include electronics, sensors, coatings, barriers, energy storage and conversion, and biomedicine. A parallel effort has begun to understand the biological and environmental interactions of synthetic nanosheets, both to enable the biomedical developments and to ensure human health and safety for all application fields. This review covers the most recent literature on the biological responses to 2D materials and also draws from older literature on natural lamellar minerals to provide additional insight into the essential chemical behaviors. The article proposes a framework for more systematic investigation of biological behavior in the future, rooted in fundamental materials chemistry and physics. That framework considers three fundamental interaction modes: (i) chemical interactions and phase transformations, (ii) electronic and surface redox interactions, and (iii) physical and mechanical interactions that are unique to near-atomically-thin, high-aspect-ratio solids. Two-dimensional materials are shown to exhibit a wide range of behaviors, which reflect the diversity in their chemical compositions, and many are expected to undergo reactive dissolution processes that will be key to understanding their behaviors and interpreting biological response data. The review concludes with a series of recommendations for high-priority research subtopics at the "bio-nanosheet" interface that we hope will enable safe and successful development of technologies related to two-dimensional nanomaterials.

Published
2016

11. A selective membrane-targeting repurposed antibiotic with activity against persistent methicillin-resistant Staphylococcus aureus

Author

Kim, Wooseong, Zou, Guijin, Hari, Taylor P. A., Wilt, Ingrid K., Zhu, Wenpeng, Galle, Nicolas, Faizi, Hammad A., Hendricks, Gabriel L., Tori, Katerina, Pan, Wen, Huang, Xiaowen, Steele, Andrew D., Csatary, Erika E., Dekarske, Madeline M., Rosen, Jake L., de Queiroz Ribeiro, Noelly, Lee, Kiho, Port, Jenna, Fuchs, Beth Burgwyn, Vlahovska, Petia M., Wuest, William M., Gao, Huajian, Ausubel, Frederick M., and Mylonakis, Eleftherios

Published
2019

12. Regulatory mechanisms of leaf color change in Acer pictum subsp. mono

Author

Ge, Wei, Wang, Xiaoxiao, Li, Jianyi, Zhu, Wenpeng, Cui, Jinteng, and Zhang, Kezhong

Subjects
Antioxidants -- Research -- Physiological aspects, Photosynthesis -- Physiological aspects, Anthocyanin -- Physiological aspects, Biological sciences
Abstract

Acer pictum subsp. mono is a colored leaf tree with vital ornamental and economic value. However, insufficient color change and early leaf fall in cities restrict its ornamental value. In this research, green and red leaves from wild A. p. subsp. mono were collected to study the regulatory mechanisms of leaf color change. Through the determination of plant physiological indexes, we found that the photosynthetic pigment content in red leaves decreased significantly compared with green leaves, while the anthocyanin content and antioxidant activity increased significantly compared with green leaves during the leaf color change process. Using transcriptome sequencing, we found more than 5500 differentially expressed genes, most of which were up-regulated. Many of the differentially expressed genes are involved in the anthocyanin metabolic pathway. The expression patterns of 15 key genes were investigated by quantitative real-time polymerase chain reaction. Among these genes, AmDFR and PAL1 are significant genes involved in the anthocyanin metabolic pathway, and CIPKs2, CIPKs6, CMLs1, CMLs38, AmGST1, AmGST2, GPX3, CBF, AmAPX, AmSOD, POD5, AmGR, and PSBY might be stress response genes that indirectly regulated the anthocyanin accumulation. The results showed that these genes play vital roles in the leaf color change of A. p. subsp. mono. This research will be helpful in further study of the molecular regulatory mechanisms of leaf color change and for the improvement of colored leaf plants. Key words: Acer pictum subsp. mono, leaf color change, plant physiological index, transcriptome, molecular mechanism. Resume : L' Acer pictum subsp. mono est un arbre au feuillage colore qui a une valeur ornementale et economique. Cependant, un changement de couleur insuffisant ou une chute precoce des feuilles reduisent sa valeur. Dans ce travail, des feuilles vertes et rouges d'arbres sauvages de l'A. p. subsp. mono ont ete recoltees pour etudier les mecanismes regulant le changement de couleur des feuilles. Via la determination d'indices physiologiques, les auteurs ont trouve que la teneur en pigment photosynthetique chez les feuilles rouges declinait rapidement par rapport aux feuilles vertes, tandis que la teneur en anthocyanes et en activite antioxydante augmentait consi-derablement par rapport aux feuilles vertes au cours du processus de changement de couleur. En sequencant le transcriptome, les auteurs ont identifie plus de 5 500 genes qui etaient exprimes differemment, la plupart etant plus fortement exprimes. Plusieurs de ces genes sont impliques dans la voie metabolique des anthocyanes. L'expression de 15 genes cles a ete etudiee par amplification PCR en temps reel. Parmi ces genes, AmDFR et PAL1 sont des genes importants dans la voie metabolique des anthocyanes, tandis que les genes CIPKs2, CIPKs6, CMLs1, CMLs38, AmGST1, AmGST2, GPX3, CBF, AmAPX, AmSOD, POD5, AmGR et PSBY sont vraisemblablement des genes de reponse aux stress qui regulent indirectement l'accumulation des anthocyanes. Les resultats montrent que ces genes jouent des roles essentiels dans le changement de la couleur des feuilles chez l'A. p. subsp. mono. Cette recherche sera utile pour des etudes plus approfondies des mecanismes de regulation du changement de la couleur des feuilles et pour l'amelioration des plantes au feuillage colore. [Traduit par la Redaction] Mots-cles : Acer pictum subsp. mono, changement de la couleur du feuillage, indice physiologique, transcriptome, mecanisme moleculaire., Introduction Acer pictum subsp. mono is a perennial deciduous tree species in the family Aceraceae. It is widely distributed in Northeast China, North China, and all provinces of the Yangtze [...]

Published
2019
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23. Donor–Acceptor Competition via Halide Vacancy Filling for Oxygen Detection of High Sensitivity and Stability by All‐Inorganic Perovskite Films

Author

Xing, Weiwei, primary, Yao, Qianqian, additional, Zhu, Wenpeng, additional, Jiang, He, additional, Zhang, Xiaoyue, additional, Ji, Ye, additional, Shao, Jian, additional, Xiong, Weiming, additional, Wang, Biao, additional, Zhang, Bangmin, additional, Luo, Xin, additional, and Zheng, Yue, additional

Published
2021
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24. A new class of synthetic retinoid antibiotics effective against bacterial persisters

Author

Kim, Wooseong, Zhu, Wenpeng, Hendricks, Gabriel Lambert, Van Tyne, Daria, Steele, Andrew D., Keohane, Colleen E., Fricke, Nico, Conery, Annie L., Shen, Steven, Pan, Wen, Lee, Kiho, Rajamuthiah, Rajmohan, Fuchs, Beth Burgwyn, Vlahovska, Petia M., Wuest, William M., Gilmore, Michael S., Gao, Huajian, Ausubel, Frederick M., and Mylonakis, Eleftherios

Subjects
Staphylococcus aureus infections -- Drug therapy, Antibiotics -- Dosage and administration, Retinoids -- Dosage and administration, Environmental issues, Science and technology, Zoology and wildlife conservation
Abstract

Author(s): Wooseong Kim [1]; Wenpeng Zhu [2]; Gabriel Lambert Hendricks [1]; Daria Van Tyne [3, 4]; Andrew D. Steele [5, 6]; Colleen E. Keohane [5, 6]; Nico Fricke [2]; Annie [...]

Published
2018
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28. CH3NH3+ and Pb immobilization through PbI2 binding by organic molecule doping for homogeneous organometal halide perovskite films.

Author

Jiang, He, Yao, Qianqian, Zhang, Xiaoyue, Zhang, Bangmin, Xing, Weiwei, Sun, Yijing, Xiong, Weiming, Luo, Xin, Zhu, Wenpeng, and Zheng, Yue

Abstract

Organic molecule doping is one of the main strategies to enhance the performance and sustainability of organometal halide perovskite polycrystalline films. However, the mechanisms for interpreting organic molecule doping are poorly understood, limiting the development of perovskite solar cells (PSCs). Herein, we revisit regular perovskite films and study the doping effects of two typical organic molecules. With PCBM and PMMA doping, the CH3NH3PbI3 films showed higher homogeneity in their crystalline structure, chemical composition, surface topography and potential. The binding of organic molecules to PbI2 inhibited the migration of Pb and the aggregation of CH3NH3+ vacancies. PMMA induced the formation of CH3NH3PbI3 nanofibers, which bridged the grains and increased the intergrain connectivity. The CH3NH3PbI3 films doped with organic molecules showed a five-fold increase in photoexcited carrier lifetime (>1 μs) with an enhanced photoelectric conversion efficiency and stability. Our work offers insight into the doping of organic molecules in perovskite films and paves the way for the further optimization of PSCs. [ABSTRACT FROM AUTHOR]

Published
2022
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33. Discovery and Optimization of nTZDpa as an Antibiotic Effective Against Bacterial Persisters

Author

Kim, Wooseong, primary, Steele, Andrew D., additional, Zhu, Wenpeng, additional, Csatary, Erika E., additional, Fricke, Nico, additional, Dekarske, Madeline M., additional, Jayamani, Elamparithi, additional, Pan, Wen, additional, Kwon, Bumsup, additional, Sinitsa, Isabelle F., additional, Rosen, Jake L., additional, Conery, Annie L., additional, Fuchs, Beth Burgwyn, additional, Vlahovska, Petia M., additional, Ausubel, Frederick M., additional, Gao, Huajian, additional, Wuest, William M., additional, and Mylonakis, Eleftherios, additional

Published
2018
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