Your search keyword '"Jie M"' showing total 32 results

1. Giant dimeric donors for all-giant-oligomer organic solar cells with efficiency over 16% and superior photostability

Author

Caixuan Wang, Xiaoming Ma, Dan Deng, Hao Zhang, Rui Sun, Jianqi Zhang, Lili Zhang, Mengying Wu, Jie Min, Zhi-Guo Zhang, and Zhixiang Wei

Subjects

Science

Abstract

Abstract Increasing the molecular weight while maintaining mono-dispersity has been proved crucial in innovating high-performance photovoltaic materials in giant oligomeric acceptors. However, developing efficient giant oligomeric donors to replace the batch-varied polymers remains challenging due to a lack of design principles. Here, by designing two unique isomeric rhodanine-based linkers, we successfully regulate the assembly behaviors of giant dimeric donors (G-Dimer-Ds) and fabricate the first all-giant-oligomer OSCs pairing with giant dimeric acceptor DY. Multiple characterizations demonstrate the small homo-molecular interaction with strong thermal-driven assembly capability in G-Dimer-D2 simultaneously facilitates reducing energetic disorder, improving charge transport and obtaining stable morphology, resulting in a satisfactory efficiency of 15.70% and long-term photostability with an extrapolated T 80 of ca.10,000 hours, and further enhancing thermal-driven assembly promotes efficiency of 16.05%. Our results provide construction approaches on efficient giant donors, and propose a promising type of OSC with completely definite structures, high efficiency and superior stability.

Published

2024

2. Cr dopant mediates hydroxyl spillover on RuO2 for high-efficiency proton exchange membrane electrolysis

Author

Yu Shen, Xiao-Long Zhang, Ming-Rong Qu, Jie Ma, Sheng Zhu, Yu-Lin Min, Min-Rui Gao, and Shu-Hong Yu

Subjects

Science

Abstract

Abstract Simultaneously improving the activity and stability of catalysts for anodic oxygen evolution reaction (OER) in proton exchange membrane water electrolysis (PEMWE) remains a notable challenge. Here, we report a chromium-doped ruthenium dioxide with oxygen vacancies, termed Cr0.2Ru0.8O2-x, that drives OER with an overpotential of 170 mV at 10 mA cm−2 and operates stably over 2000 h in acidic media. Experimental and theoretical studies show that the synergy of Cr dopant and oxygen vacancy induces an unconventional dopant-mediated hydroxyl spillover mechanism. Such dynamic hydroxyl spillover from Cr dopant to Ru active site changes the rate-determining step from OOH* formation to O2 formation and thus greatly improves the OER performance. Moreover, the Cr dopant and oxygen vacancy also play a crucial role in stabilizing surface Ru and lattice oxygen in the Ru-O-Cr structural motif. When assembled into the anode of a practical PEMWE device, Cr0.2Ru0.8O2-x enables long-term durability of over 200 h at an ampere-level current density and 60 degrees centigrade.

Published

2024

3. Order-in-disordered ultrathin carbon nanostructure with nitrogen-rich defects bridged by pseudographitic domains for high-performance ion capture

Author

Mingxing Liang, Yifan Ren, Jun Cui, Xiaochen Zhang, Siyang Xing, Jingjing Lei, Mengyao He, Haijiao Xie, Libo Deng, Fei Yu, and Jie Ma

Subjects

Science

Abstract

Abstract Carbon materials with defect-rich structure are highly demanded for various electrochemical scenes, but encountering a conflict with the deteriorative intrinsic conductivity. Herein, we build a highway-mediated nanoarchitecture that consists of the ordered pseudographitic nanodomains among disordered highly nitrogen-doped segments through a supramolecular self-assembly strategy. The “order-in-disorder” nanosheet-like carbon obtained at 800 °C (O/D NSLC-800) achieves a tradeoff with high defect degree (21.9 at% of doped nitrogen) and compensated electrical conductivity simultaneously. As expected, symmetrical O/D NSLC-800 electrodes exhibit superior capacitive deionization (CDI) performance, including brackish water desalination (≈82 mgNaCl g−1 at a cell voltage of 1.6 V in a 1000 mg L−1 NaCl solution) and reusage of actual refining circulating cooling water, outperforming most of the reported state-of-the-art CDI electrodes. The implanted pseudographitic nanodomains lower the resistance and activation energy of charge transfer, which motivates the synergy of hosting sites of multiple nitrogen configurations. Our findings shed light on electrically conductive nanoarchitecture design of defect-rich materials for advanced electrochemical applications based on molecular-level modulation.

Published

2024

4. Uncovering the phonon spectra and lattice dynamics of plastically deformable InSe van der Waals crystals

Author

Jiangtao Wu, Yifei Lin, Mingfang Shu, Yifei Liu, Yupeng Ma, Gaoting Lin, Cuiping Zhang, Pengfei Jiao, Fengfeng Zhu, Yan Wu, Russell A. Ewings, Helen C. Walker, Guochu Deng, Songxue Chi, Shengwei Jiang, Matteo Baggioli, Min Jin, Haozhe Wang, Weiwei Xie, Tian-Ran Wei, Jiong Yang, Xun Shi, and Jie Ma

Subjects

Science

Abstract

Abstract Stacking two-dimensional (2D) van der Waals (vdW) materials in a layered bulk structure provides an appealing platform for the emergence of exotic physical properties. As a vdW crystal with exceptional plasticity, InSe offers the opportunity to explore various effects arising from the coupling of its peculiar mechanical behaviors and other physical properties. Here, we employ neutron scattering techniques to investigate the correlations of plastic interlayer slip, lattice anharmonicity, and thermal transport in InSe crystals. Not only are the interlayer slip direction and magnitude well captured by shifts in the Bragg reflections, but we also observe a deviation from the expected Debye behaviour in the heat capacity and lattice thermal conductivity. Combining the experimental data with first-principles calculations, we tentatively attribute the observed evidence of strong phonon-phonon interactions to a combination of a large acoustic-optical frequency resonance and a nesting effect. These findings correlate the macroscopic plastic slip and the microscopic lattice dynamics, providing insights into the mechano-thermo coupling and modulation in 2D vdW materials.

Published

2024

5. Reactive P and S co-doped porous hollow nanotube arrays for high performance chloride ion storage

Author

Siyang Xing, Ningning Liu, Qiang Li, Mingxing Liang, Xinru Liu, Haijiao Xie, Fei Yu, and Jie Ma

Subjects

Science

Abstract

Abstract Developing stable, high-performance chloride-ion storage electrodes is essential for energy storage and water purification application. Herein, a P, S co-doped porous hollow nanotube array, with a free ion diffusion pathway and highly active adsorption sites, on carbon felt electrodes (CoNiPS@CF) is reported. Due to the porous hollow nanotube structure and synergistic effect of P, S co-doped, the CoNiPS@CF based capacitive deionization (CDI) system exhibits high desalination capacity (76.1 mgCl – g–1), fast desalination rate (6.33 mgCl – g–1 min–1) and good cycling stability (capacity retention rate of > 90%), which compares favorably to the state-of-the-art electrodes. The porous hollow nanotube structure enables fast ion diffusion kinetics due to the swift ion transport inside the electrode and the presence of a large number of reactive sites. The introduction of S element also reduces the passivation layer on the surface of CoNiP and lowers the adsorption energy for Cl– capture, thereby improving the electrode conductivity and surface electrochemical activity, and further accelerating the adsorption kinetics. Our results offer a powerful strategy to improve the reactivity and stability of transition metal phosphides for chloride capture, and to improve the efficiency of electrochemical dechlorination technologies.

Published

2024

6. Keto-anthraquinone covalent organic framework for H2O2 photosynthesis with oxygen and alkaline water

Author

Xiangcheng Zhang, Silian Cheng, Chao Chen, Xue Wen, Jie Miao, Baoxue Zhou, Mingce Long, and Lizhi Zhang

Subjects

Science

Abstract

Abstract Hydrogen peroxide photosynthesis suffers from insufficient catalytic activity due to the high energy barrier of hydrogen extraction from H2O. Herein, we report that mechanochemically synthesized keto-form anthraquinone covalent organic framework which is able to directly synthesize H2O2 (4784 μmol h−1 g−1 at λ > 400 nm) from oxygen and alkaline water (pH = 13) in the absence of any sacrificial reagents. The strong alkalinity resulted in the formation of OH-(H2O)n clusters in water, which were adsorbed on keto moieties within the framework and then dissociated into O2 and active hydrogen, because the energy barrier of hydrogen extraction was largely lowered. The produced hydrogen reacted with anthraquinone to generate anthrahydroquinone, which was subsequently oxidized by O2 to produce H2O2. This study ultimately sheds light on the importance of hydrogen extraction from H2O for H2O2 photosynthesis and demonstrates that H2O2 synthesis is achievable under alkaline conditions.

Published

2024

7. S100A8/A9 as a prognostic biomarker with causal effects for post-acute myocardial infarction heart failure

Author

Jie Ma, Yang Li, Ping Li, Xinying Yang, Shuolin Zhu, Ke Ma, Fei Gao, Hai Gao, Hui Zhang, Xin-liang Ma, Jie Du, and Yulin Li

Subjects

Science

Abstract

Abstract Heart failure is the prevalent complication of acute myocardial infarction. We aim to identify a biomarker for heart failure post-acute myocardial infarction. This observational study includes 1062 and 1043 patients with acute myocardial infarction in the discovery and validation cohorts, respectively. The outcomes are in-hospital and long-term heart failure events. S100A8/A9 is screened out through proteomic analysis, and elevated circulating S100A8/A9 is independently associated with heart failure in discovery and validation cohorts. Furthermore, the predictive value of S100A8/A9 is superior to the traditional biomarkers, and the addition of S100A8/A9 improves the risk estimation using traditional risk factors. We finally report causal effect of S100A8/A9 on heart failure in three independent cohorts using Mendelian randomization approach. Here, we show that S100A8/A9 is a predictor and potentially causal medicator for heart failure post-acute myocardial infarction.

Published

2024

8. Vacancies tailoring lattice anharmonicity of Zintl-type thermoelectrics

Author

Jinfeng Zhu, Qingyong Ren, Chen Chen, Chen Wang, Mingfang Shu, Miao He, Cuiping Zhang, Manh Duc Le, Shuki Torri, Chin-Wei Wang, Jianli Wang, Zhenxiang Cheng, Lisi Li, Guohua Wang, Yuxuan Jiang, Mingzai Wu, Zhe Qu, Xin Tong, Yue Chen, Qian Zhang, and Jie Ma

Subjects

Science

Abstract

Abstract While phonon anharmonicity affects lattice thermal conductivity intrinsically and is difficult to be modified, controllable lattice defects routinely function only by scattering phonons extrinsically. Here, through a comprehensive study of crystal structure and lattice dynamics of Zintl-type Sr(Cu,Ag,Zn)Sb thermoelectric compounds using neutron scattering techniques and theoretical simulations, we show that the role of vacancies in suppressing lattice thermal conductivity could extend beyond defect scattering. The vacancies in Sr2ZnSb2 significantly enhance lattice anharmonicity, causing a giant softening and broadening of the entire phonon spectrum and, together with defect scattering, leading to a ~ 86% decrease in the maximum lattice thermal conductivity compared to SrCuSb. We show that this huge lattice change arises from charge density reconstruction, which undermines both interlayer and intralayer atomic bonding strength in the hierarchical structure. These microscopic insights demonstrate a promise of artificially tailoring phonon anharmonicity through lattice defect engineering to manipulate lattice thermal conductivity in the design of energy conversion materials.

Published

2024

9. A fungal core effector exploits the OsPUX8B.2–OsCDC48-6 module to suppress plant immunity

Author

Xuetao Shi, Xin Xie, Yuanwen Guo, Junqi Zhang, Ziwen Gong, Kai Zhang, Jie Mei, Xinyao Xia, Haoxue Xia, Na Ning, Yutao Xiao, Qing Yang, Guo-Liang Wang, and Wende Liu

Subjects

Science

Abstract

Abstract Proteins containing a ubiquitin regulatory X (UBX) domain are cofactors of Cell Division Cycle 48 (CDC48) and function in protein quality control. However, whether and how UBX-containing proteins participate in host–microbe interactions remain unclear. Here we show that MoNLE1, an effector from the fungal pathogen Magnaporthe oryzae, is a core virulence factor that suppresses rice immunity by specifically interfering with OsPUX8B.2. The UBX domain of OsPUX8B.2 is required for its binding to OsATG8 and OsCDC48-6 and controls its 26 S proteasome–dependent stability. OsPUX8B.2 and OsCDC48-6 positively regulate plant immunity against blast fungus, while the high-temperature tolerance heat-shock protein OsBHT, a putative cytoplasmic substrate of OsPUX8B.2–OsCDC48-6, negatively regulates defense against blast infection. MoNLE1 promotes the nuclear migration and degradation of OsPUX8B.2 and disturbs its association with OsBHT. Given the high conservation of MoNLE1 among fungal isolates, plants with broad and durable blast resistance might be generated by engineering intracellular proteins resistant to MoNLE1.

Published

2024

10. Real-time monitoring polymerization degree of organic photovoltaic materials toward no batch-to-batch variations in device performance

Author

Lin-Yong Xu, Wei Wang, Xinrong Yang, Shanshan Wang, Yiming Shao, Mingxia Chen, Rui Sun, and Jie Min

Subjects

Science

Abstract

Abstract Polymerization degree plays a vital role in material properties. Previous methodologies of molecular weight control generally cannot suppress or alleviate batch-to-batch variations in device performance, especially in polymer solar cells. Herein, we develop an in-situ photoluminescence system in tandem with a set of analysis and processing procedures to track and estimate the polymerization degree of organic photovoltaic materials. To support the development of this protocol, we introduce polymer acceptor PYT constructed by near-infrared Y-series small molecule acceptors via Stille polymerization, and shed light on the correlations between molecular weight, spectral parameters, and device efficiencies that enable the design of the optical setup and confirm its feasibility. The universality is verified in PYT derivatives with stereoregularity and fluoro-substitution as well as benzo[1,2-b:4,5-b’]dithiophene-based polymers. Overall, our result provides a tool to tailor suitable conjugated oligomers applied to polymer solar cells and other organic electronics for industrial scalability and desired cost reduction.

Published

2024

11. Observation of frustrated chiral dynamics in an interacting triangular flux ladder

Author

Yuqing Li, Huiying Du, Yunfei Wang, Junjun Liang, Liantuan Xiao, Wei Yi, Jie Ma, and Suotang Jia

Subjects

Science

Abstract

Abstract Quantum matter interacting with gauge fields, an outstanding paradigm in modern physics, underlies the description of various physical systems. Engineering artificial gauge fields in ultracold atoms offers a highly controllable access to the exotic many-body phenomena in these systems, and has stimulated intense interest. Here we implement a triangular flux ladder in the momentum space of ultracold 133Cs atoms, and study the chiral dynamics under tunable interactions. Through measurements of the site-resolved density evolutions, we reveal how the competition between interaction and flux in the frustrated triangular geometry gives rise to flux-dependent localization and biased chiral dynamics. For the latter in particular, the symmetry between the two legs is dynamically broken, which can be attributed to frustration. We then characterize typical dynamic patterns using complementary observables. Our work opens the avenue toward exploring correlated transport in frustrated geometries, where the interplay between interactions and gauge fields plays a key role.

Published

2023

12. A single-cell atlas of West African lungfish respiratory system reveals evolutionary adaptations to terrestrialization

Author

Ruihua Zhang, Qun Liu, Shanshan Pan, Yingying Zhang, Yating Qin, Xiao Du, Zengbao Yuan, Yongrui Lu, Yue Song, Mengqi Zhang, Nannan Zhang, Jie Ma, Zhe Zhang, Xiaodong Jia, Kun Wang, Shunping He, Shanshan Liu, Ming Ni, Xin Liu, Xun Xu, Huanming Yang, Jian Wang, Inge Seim, and Guangyi Fan

Subjects

Science

Abstract

Abstract The six species of lungfish possess both lungs and gills and are the closest extant relatives of tetrapods. Here, we report a single-cell transcriptome atlas of the West African lungfish (Protopterus annectens). This species manifests the most extreme form of terrestrialization, a life history strategy to survive dry periods that can last for years, characterized by dormancy and reversible adaptive changes of the gills and lungs. Our atlas highlights the cell type diversity of the West African lungfish, including gene expression consistent with phenotype changes of terrestrialization. Comparison with terrestrial tetrapods and ray-finned fishes reveals broad homology between the swim bladder and lung cell types as well as shared and idiosyncratic changes of the external gills of the West African lungfish and the internal gills of Atlantic salmon. The single-cell atlas presented here provides a valuable resource for further exploration of the respiratory system evolution in vertebrates and the diversity of lungfish terrestrialization.

Published

2023

13. A polycistronic system for multiplexed and precalibrated expression of multigene pathways in fungi

Author

Qun Yue, Jie Meng, Yue Qiu, Miaomiao Yin, Liwen Zhang, Weiping Zhou, Zhiqiang An, Zihe Liu, Qipeng Yuan, Wentao Sun, Chun Li, Huimin Zhao, István Molnár, Yuquan Xu, and Shuobo Shi

Subjects

Science

Abstract

Abstract Synthetic biology requires efficient systems that support the well-coordinated co-expression of multiple genes. Here, we discover a 9-bp nucleotide sequence that enables efficient polycistronic gene expression in yeasts and filamentous fungi. Coupling polycistronic expression to multiplexed, markerless, CRISPR/Cas9-based genome editing, we develop a strategy termed HACKing (Highly efficient and Accessible system by CracKing genes into the genome) for the assembly of multigene pathways. HACKing allows the expression level of each enzyme to be precalibrated by linking their translation to those of host proteins with predetermined abundances under the desired fermentation conditions. We validate HACKing by rapidly constructing highly efficient Saccharomyces cerevisiae cell factories that express 13 biosynthetic genes, and produce model endogenous (1,090.41 ± 80.92 mg L−1 squalene) or heterologous (1.04 ± 0.02 mg L−1 mogrol) terpenoid products. Thus, HACKing addresses the need of synthetic biology for predictability, simplicity, scalability, and speed upon fungal pathway engineering for valuable metabolites.

Published

2023

14. Sirtuin 6 maintains epithelial STAT6 activity to support intestinal tuft cell development and type 2 immunity

Author

Xiwen Xiong, Chenyan Yang, Wei-Qi He, Jiahui Yu, Yue Xin, Xinge Zhang, Rong Huang, Honghui Ma, Shaofang Xu, Zun Li, Jie Ma, Lin Xu, Qunyi Wang, Kaiqun Ren, Xiaoli S. Wu, Christopher R. Vakoc, Jiateng Zhong, Genshen Zhong, Xiaofei Zhu, Yu Song, Hai-Bin Ruan, and Qingzhi Wang

Subjects

Science

Abstract

Host defense against helminth infection is mediated by mucosal type 2 immunity. Using gain- and loss-of-function mouse models, and mouse intestinal organoids, Xiong et al. show that SIRT6 modulates tuft and goblet cell expansion in intestinal epithelium by activating STAT6 to maintain type 2 mucosal immunity in response to helminth infection.

Published

2022

15. Spatially resolved proteomic map shows that extracellular matrix regulates epidermal growth

Author

Jun Li, Jie Ma, Qiyu Zhang, Huizi Gong, Dunqin Gao, Yujie Wang, Biyou Li, Xiao Li, Heyi Zheng, Zhihong Wu, Yunping Zhu, and Ling Leng

Subjects

Science

Abstract

Ling Leng et al. construct a hierarchical skin proteome map and identify an extracellular matrix glycoprotein TGFBI, which is located in basement membrane and could enhance the growth and function of epidermal stem cells and promote wound healing.

Published

2022

16. Mechanical instability generated by Myosin 19 contributes to mitochondria cristae architecture and OXPHOS

Author

Peng Shi, Xiaoyu Ren, Jie Meng, Chenlu Kang, Yihe Wu, Yingxue Rong, Shujuan Zhao, Zhaodi Jiang, Ling Liang, Wanzhong He, Yuxin Yin, Xiangdong Li, Yong Liu, Xiaoshuai Huang, Yujie Sun, Bo Li, and Congying Wu

Subjects

Science

Abstract

The structure of the mitochondrial inner membrane, or cristae, is important for functional oxidative phosphorylation and energy production. Here, the authors show that loss of myosin 19 impairs cristae structure as well as energy production, connecting motor activity to membrane potential.

Published

2022

17. Ultrafast charge transfer dynamics in 2D covalent organic frameworks/Re-complex hybrid photocatalyst

Author

Qinying Pan, Mohamed Abdellah, Yuehan Cao, Weihua Lin, Yang Liu, Jie Meng, Quan Zhou, Qian Zhao, Xiaomei Yan, Zonglong Li, Hao Cui, Huili Cao, Wenting Fang, David Ackland Tanner, Mahmoud Abdel-Hafiez, Ying Zhou, Tonu Pullerits, Sophie E. Canton, Hong Xu, and Kaibo Zheng

Subjects

Science

Abstract

Re complexes within covalent organic frameworks have emerged as promising photocatalysts for CO2 reduction. Here, authors identify a high-energy electron transfer pathway during CO2 reduction that results in longer-lived excited states than a low-energy electron transfer pathway.

Published

2022

18. Macrophages in epididymal adipose tissue secrete osteopontin to regulate bone homeostasis

Author

Bingyang Dai, Jiankun Xu, Xu Li, Le Huang, Chelsea Hopkins, Honglian Wang, Hao Yao, Jie Mi, Lizhen Zheng, Jiali Wang, Wenxue Tong, Dick Ho-kiu Chow, Ye Li, Xuan He, Peijie Hu, Ziyi Chen, Haiyue Zu, Yixuan Li, Yao Yao, Qing Jiang, and Ling Qin

Subjects

Science

Abstract

Visceral adipose tissue secretes cytokines to regulate the homeostasis of organs. Here, the authors show that epididymal white adipose tissue-secreted osteopontin induces lipophagocytic mobilization of macrophages and promotes bone matrix degradation via activating osteoclasts.

Published

2022

19. NAc-VTA circuit underlies emotional stress-induced anxiety-like behavior in the three-chamber vicarious social defeat stress mouse model

Author

Guangjian Qi, Pei Zhang, Tongxia Li, Ming Li, Qian Zhang, Feng He, Lijun Zhang, Hongwei Cai, Xinyuan Lv, Haifa Qiao, Xiaoqian Chen, Jie Ming, and Bo Tian

Subjects

Science

Abstract

Using a three-chamber vicarious social defeat stress model in mice, Qi et al. show that chronic emotional stress (CES) induced anxiety-like behavior and transient social interaction changes. Bidirectional modulation of NAc-VTA circuit mimics or reverses the CES-induced anxiety-like behavior.

Published

2022

20. An injury-induced serotonergic neuron subpopulation contributes to axon regrowth and function restoration after spinal cord injury in zebrafish

Author

Chun-Xiao Huang, Yacong Zhao, Jie Mao, Zhen Wang, Lulu Xu, Jianwei Cheng, Na N. Guan, and Jianren Song

Subjects

Science

Abstract

The mechanisms involved in regeneration of the spinal cord after injury are unclear. Here, the authors show that a subpopulation of intraspinal serotonergic neurons localized at the injury site stimulates axonal regrowth of interneurons via 5-HT1B receptor, resulting in recovery of function following SCI in zebrafish.

Published

2021

21. Field-induced quantum spin disordered state in spin-1/2 honeycomb magnet Na2Co2TeO6

Author

Gaoting Lin, Jaehong Jeong, Chaebin Kim, Yao Wang, Qing Huang, Takatsugu Masuda, Shinichiro Asai, Shinichi Itoh, Gerrit Günther, Margarita Russina, Zhilun Lu, Jieming Sheng, Le Wang, Jiucai Wang, Guohua Wang, Qingyong Ren, Chuanying Xi, Wei Tong, Langsheng Ling, Zhengxin Liu, Liusuo Wu, Jiawei Mei, Zhe Qu, Haidong Zhou, Xiaoqun Wang, Je-Geun Park, Yuan Wan, and Jie Ma

Subjects

Science

Abstract

The honeycomb lattice with a spin-orbit interaction can give rise to exotic quantum states. With the measurements of bulk properties and inelastic neutron scattering, Lin et al demonstrate the existence of a field induced spin-disordered state in Na2Co2TeO6 and extend the Kitaev model to 3d system.

Published

2021

22. A cost-effective and humidity-tolerant chloride solid electrolyte for lithium batteries

Author

Kai Wang, Qingyong Ren, Zhenqi Gu, Chaomin Duan, Jinzhu Wang, Feng Zhu, Yuanyuan Fu, Jipeng Hao, Jinfeng Zhu, Lunhua He, Chin-Wei Wang, Yingying Lu, Jie Ma, and Cheng Ma

Subjects

Science

Abstract

Stable inorganic solid electrolytes are instrumental in developing high-voltage Li metal batteries. Here, the authors present the synthesis and electrochemical energy storage properties of a cost-effective and humidity-tolerant chloride solid electrolyte.

Published

2021

23. Modulating electron density of vacancy site by single Au atom for effective CO2 photoreduction

Author

Yuehan Cao, Lan Guo, Meng Dan, Dmitry E. Doronkin, Chunqiu Han, Zhiqiang Rao, Yang Liu, Jie Meng, Zeai Huang, Kaibo Zheng, Peng Chen, Fan Dong, and Ying Zhou

Subjects

Science

Abstract

The electron density of reactive sites significantly affects catalytic performances. Here, authors demonstrate the electron density of different reactive sites can be modulated by regulating the type of vacancy and the size of Au, leading to effective CO2 photoreduction.

Published

2021

24. Observation of Weyl fermions in a magnetic non-centrosymmetric crystal

Author

Daniel S. Sanchez, Guoqing Chang, Ilya Belopolski, Hong Lu, Jia-Xin Yin, Nasser Alidoust, Xitong Xu, Tyler A. Cochran, Xiao Zhang, Yi Bian, Songtian S. Zhang, Yi-Yuan Liu, Jie Ma, Guang Bian, Hsin Lin, Su-Yang Xu, Shuang Jia, and M. Zahid Hasan

Subjects

Science

Abstract

The search for magnetic Weyl fermion remains a challenge. Here, the authors report angle-resolved photoemission spectroscopy and magnetotransport measurements resolving the topological properties of Weyl fermion quasiparticles in magnetic non-centrosymmetric crystal PrAlGe.

Published

2020

25. Establishing the carrier scattering phase diagram for ZrNiSn-based half-Heusler thermoelectric materials

Author

Qingyong Ren, Chenguang Fu, Qinyi Qiu, Shengnan Dai, Zheyuan Liu, Takatsugu Masuda, Shinichiro Asai, Masato Hagihala, Sanghyun Lee, Shuki Torri, Takashi Kamiyama, Lunhua He, Xin Tong, Claudia Felser, David J. Singh, Tiejun Zhu, Jiong Yang, and Jie Ma

Subjects

Science

Abstract

Chemical doping plays an important role in tuning carrier concentration of materials, but its influence on other aspects of electrical properties is less known. Here, the authors find that chemical doping brings strong screening effects to ionized impurities, grain boundary, and polar optical phonon scattering.

Published

2020

26. Irreversible accumulated SERS behavior of the molecule-linked silver and silver-doped titanium dioxide hybrid system

Author

Lu Zhou, Jun Zhou, Wei Lai, Xudong Yang, Jie Meng, Liangbi Su, Chenjie Gu, Tao Jiang, Edwin Yue Bun Pun, Liyang Shao, Lucia Petti, Xiao Wei Sun, Zhenghong Jia, Qunxiang Li, Jiaguang Han, and Pasquale Mormile

Subjects

Science

Abstract

The authors report that near-infrared light induces an irreversible accumulated Surface-enhanced Raman scattering (SERS) behavior of a molecule/metal–semiconductor hybrid system. They investigate the underlying mechanism and show that it is attributed to crystallinity, charge transfer and reorientation.

Published

2020

27. Simultaneous enhanced efficiency and thermal stability in organic solar cells from a polymer acceptor additive

Author

Wenyan Yang, Zhenghui Luo, Rui Sun, Jie Guo, Tao Wang, Yao Wu, Wei Wang, Jing Guo, Qiang Wu, Mumin Shi, Hongneng Li, Chuluo Yang, and Jie Min

Subjects

Science

Abstract

Thermal instability is a critical bottleneck for bulk heterojunction organic solar cells. Here Yang et al. use barely 1 wt% of a polymer acceptor as an additive to simultaneously improve the device efficiency and thermal stability of several state-of-the-art organic photovoltaic systems at high temperatures.

Published

2020

28. Locus coeruleus-CA1 projections are involved in chronic depressive stress-induced hippocampal vulnerability to transient global ischaemia

Author

Qian Zhang, Dian Xing Hu, Feng He, Chun Yang Li, Guang Jian Qi, Hong Wei Cai, Tong Xia Li, Jie Ming, Pei Zhang, Xiao Qian Chen, and Bo Tian

Subjects

Science

Abstract

Depression and transient ischaemic attacks are tightly regulated but the neural circuits underlying depression-modulated ischaemic injury are not known. Here, the authors show that the locus coeruleus-CA1 pathway is involved in depression-associated ischaemia susceptibility.

Published

2019

29. Promiscuous enzymatic activity-aided multiple-pathway network design for metabolic flux rearrangement in hydroxytyrosol biosynthesis

Author

Wei Chen, Jun Yao, Jie Meng, Wenjing Han, Yong Tao, Yihua Chen, Yixin Guo, Guizhi Shi, Yang He, Jian-Ming Jin, and Shuang-Yan Tang

Subjects

Science

Abstract

Metabolic engineering usually focuses on manipulating enzyme(s) within a single pathway. Here, the authors show that a promiscuous enzymatic activity-based multiple-pathway design can minimize cell metabolic burden and allow carbon flow rearrangement, leading to efficient hydroxytyrosol biosynthesis.

Published

2019

30. Author Correction: Observation of Weyl fermions in a magnetic non-centrosymmetric crystal

Author

Daniel S. Sanchez, Guoqing Chang, Ilya Belopolski, Hong Lu, Jia-Xin Yin, Nasser Alidoust, Xitong Xu, Tyler A. Cochran, Xiao Zhang, Yi Bian, Songtian S. Zhang, Yi-Yuan Liu, Jie Ma, Guang Bian, Hsin Lin, Su-Yang Xu, Shuang Jia, and M. Zahid Hasan

Subjects

Science

Published

2022

31. Nickel/photoredox dual catalyzed arylalkylation of nonactivated alkenes.

Author

Gao Y, Gao L, Zhu E, Yang Y, Jie M, Zhang J, Pan Z, and Xia C

Abstract

Alkene dicarbofunctionalization is an efficient strategy and operation-economic fashion for introducing complexity in molecules. A nickel/photoredox dual catalyzed arylalkylation of nonactivated alkenes for the simultaneous construction of one C(sp 3 )-C(sp 3 ) bond and one C(sp 3 )-C(sp 2 ) bond has been developed. The mild catalytic method provided valuable indanethylamine derivatives with wide substrate scope and good functional group compatibility. An enantioselective dicarbofunctionalization was also achieved with pyridine-oxazoline as a ligand. The efficiency of metallaphotoredox dicarbofunctionalization was demonstrated for the concise synthesis of pharmaceutically active compounds., (© 2023. The Author(s).)

Published

2023

32. Phase separation of BuGZ regulates gut regeneration and aging through interaction with m 6 A regulators.

Author

Zhang Q, Deng K, Liu M, Yang S, Xu W, Feng T, Jie M, Liu Z, Sheng X, Chen H, and Jiang H

Subjects

Animals, Aging, Cell Proliferation, Drosophila metabolism, Intestines metabolism, Stem Cells metabolism, Drosophila Proteins metabolism, Transcription Factors genetics, Microtubule-Associated Proteins metabolism

Abstract

Exploring the role of phase separation in intracellular compartment formation is an active area of research. However, the associations of phase separation with intestinal stem cell (ISC)-dependent regeneration and aging remain unclear. Here, we demonstrate that BuGZ, a coacervating mitotic effector, shows age- and injury-associated condensation in Drosophila ISC nuclei during interphase. BuGZ condensation promotes ISC proliferation, affecting Drosophila gut repair and longevity. Moreover, m 6 A reader YT521-B acts as the transcriptional and functional downstream of BuGZ. The binding of YT521-B promotor or m 6 A writer Ime4/ Mettl14 to BuGZ controls its coacervation, indicating that the promotor may accelerate the phase transition of its binding transcription factor. Hence, we propose that phase separation and m 6 A regulators may be critical for ameliorating ISC-dependent gut regeneration and aging and requires further study., (© 2023. Springer Nature Limited.)

Published

2023