Symmetric six oxygen-coordinated Mn structural units(MnO6)in MnO2 with small Mn–O orbital overlap hamper electron transfer rates during energy storage.Herein,we report a novel bond angle modulation strategy to manipu...Symmetric six oxygen-coordinated Mn structural units(MnO6)in MnO2 with small Mn–O orbital overlap hamper electron transfer rates during energy storage.Herein,we report a novel bond angle modulation strategy to manipulate Mn–O orbital overlap in MnO2 through the construction of Mn vacancies(MnO2-VMn),aiming at expediting electron transfer,and thus enhancing energy storage performance.Both experimental and theoretical results disclose that the amplification of Mn–O–Mn bond angles exclusively augments the Mn(dx2-y2)-O(py)orbital overlap and triggers the electron redistribution in MnO2-VMn,inducing an augmented Mn dx2-y2 electron occupation.This heightened presence of active electrons in the Mn dx2-y2 orbital paves the way for accelerating electron transfer and ion transfer in MnO2-VMn.Notably,MnO2-VMn delivers an improved specific capacitance of 425 F g−1 at 1 A g−1 and a superior rate capacity of 265 F g−1 at 20 A g−1.Furthermore,an asymmetric supercapacitor(MnO2-VMn//AC ASC)was fabricated,exhibiting a high energy density of 64.3 Wh kg−1 at a power density of 1000 W kg−1.Furthermore,theoretical insights uncover the profound implications of metal–oxygen–metal bond angle regulation on interatomic orbital overlap modulation.These revelations illuminate pathways for the design of advanced energy storage materials.展开更多
Obesity,which can arise from genetic or environmental factors,has been shown to cause serious damages to the reproductive system.The ovary,as one of the primary regulators of female fertility,is a complex organ compri...Obesity,which can arise from genetic or environmental factors,has been shown to cause serious damages to the reproductive system.The ovary,as one of the primary regulators of female fertility,is a complex organ comprised of heterogeneous cell types that work together to maintain a normal ovarian microenvironment(OME).Despite its importance,the effect of obesity on the entire ovary remains poorly documented.In this study,we performed ovary single-cell and nanoscale spatial RNA sequencing to investigate how the OME changed under different kinds of obesity,including high-fat diet(HFD)induced obesity and Leptin ablation induced obesity(OB).Our results demonstrate that OB,but not HFD,dramatically altered the proportion of ovarian granulosa cells,theca-interstitial cells,luteal cells,and endothelial cells.Furthermore,based on the spatial dynamics of follicular development,we defined four subpopulations of granulosa cell and found that obesity drastically disrupted the differentiation of mural granulosa cells from small to large antral follicles.Functionally,HFD enhanced follicle-stimulating hormone(FSH)sensitivity and hormone conversion,while OB caused decreased sensitivity,inadequate steroid hormone conversion,and impaired follicular development.These differences can be explained by the differential expression pattern of the transcription factor Foxo1.Overall,our study provides a powerful and high-resolution resource for profiling obesity-induced OME and offers insights into the diverse effects of obesity on female reproductive disorders.展开更多
Dear Editor, Histone H3 lysine 36 (H3K36) methylation is a conserved epigenetic mark in all eukaryotes (Berr et al., 2011; Wagner and Carpenter, 2012). Reverse genetic analysis in Arabidopsis had uncovered a cruc...Dear Editor, Histone H3 lysine 36 (H3K36) methylation is a conserved epigenetic mark in all eukaryotes (Berr et al., 2011; Wagner and Carpenter, 2012). Reverse genetic analysis in Arabidopsis had uncovered a crucial role of H3K36 di- and tri-methylation (H3K36me2 and H3K36me3) in flowering-time regulation (reviewed in Berr et al., 2011).展开更多
In this paper,two problems that exist in parking spot layout of bike-sharing which need to be solved are addressed.One is the size of parking spot,while another is the location of parking spot.First,the generation and...In this paper,two problems that exist in parking spot layout of bike-sharing which need to be solved are addressed.One is the size of parking spot,while another is the location of parking spot.First,the generation and attraction model of traffic travel is used to predict the usage requirements of bike-sharing,to acquire the parking requirements of bike-sharing.Then,we establish the best station spacing model to calculate the optimal quantity of parking spots.Moreover,the method of shortest distance clustering is applied to cluster the parking demand spots.Finally,the location optimization of bike-sharing parking spot is carried out by using gravity location model.In summary,the layout of bike-sharing parking spot is finished based on the abovementioned four steps.展开更多
基金Financial support from the National Natural Science Foundation of China(21575016U20A20154+1 种基金22279005)the National Program for Support of Top-notch Young Professionals。
文摘Symmetric six oxygen-coordinated Mn structural units(MnO6)in MnO2 with small Mn–O orbital overlap hamper electron transfer rates during energy storage.Herein,we report a novel bond angle modulation strategy to manipulate Mn–O orbital overlap in MnO2 through the construction of Mn vacancies(MnO2-VMn),aiming at expediting electron transfer,and thus enhancing energy storage performance.Both experimental and theoretical results disclose that the amplification of Mn–O–Mn bond angles exclusively augments the Mn(dx2-y2)-O(py)orbital overlap and triggers the electron redistribution in MnO2-VMn,inducing an augmented Mn dx2-y2 electron occupation.This heightened presence of active electrons in the Mn dx2-y2 orbital paves the way for accelerating electron transfer and ion transfer in MnO2-VMn.Notably,MnO2-VMn delivers an improved specific capacitance of 425 F g−1 at 1 A g−1 and a superior rate capacity of 265 F g−1 at 20 A g−1.Furthermore,an asymmetric supercapacitor(MnO2-VMn//AC ASC)was fabricated,exhibiting a high energy density of 64.3 Wh kg−1 at a power density of 1000 W kg−1.Furthermore,theoretical insights uncover the profound implications of metal–oxygen–metal bond angle regulation on interatomic orbital overlap modulation.These revelations illuminate pathways for the design of advanced energy storage materials.
基金This work was supported by the National Key Research and Development Program of China(2021YFC2700400,2018YFC1004303)the National Natural Science Foundation of China(31988101,82201798,82192874,82071606,82101707)+3 种基金CAMS Innovation Fund for Medical Sciences(2021-I2M-5-001)Shandong Provincial Key Research and Development Program(2020ZLYS02)the Taishan Scholars Program of Shandong Province(ts20190988)the Fundamental Research Funds of Shandong University.
文摘Obesity,which can arise from genetic or environmental factors,has been shown to cause serious damages to the reproductive system.The ovary,as one of the primary regulators of female fertility,is a complex organ comprised of heterogeneous cell types that work together to maintain a normal ovarian microenvironment(OME).Despite its importance,the effect of obesity on the entire ovary remains poorly documented.In this study,we performed ovary single-cell and nanoscale spatial RNA sequencing to investigate how the OME changed under different kinds of obesity,including high-fat diet(HFD)induced obesity and Leptin ablation induced obesity(OB).Our results demonstrate that OB,but not HFD,dramatically altered the proportion of ovarian granulosa cells,theca-interstitial cells,luteal cells,and endothelial cells.Furthermore,based on the spatial dynamics of follicular development,we defined four subpopulations of granulosa cell and found that obesity drastically disrupted the differentiation of mural granulosa cells from small to large antral follicles.Functionally,HFD enhanced follicle-stimulating hormone(FSH)sensitivity and hormone conversion,while OB caused decreased sensitivity,inadequate steroid hormone conversion,and impaired follicular development.These differences can be explained by the differential expression pattern of the transcription factor Foxo1.Overall,our study provides a powerful and high-resolution resource for profiling obesity-induced OME and offers insights into the diverse effects of obesity on female reproductive disorders.
文摘Dear Editor, Histone H3 lysine 36 (H3K36) methylation is a conserved epigenetic mark in all eukaryotes (Berr et al., 2011; Wagner and Carpenter, 2012). Reverse genetic analysis in Arabidopsis had uncovered a crucial role of H3K36 di- and tri-methylation (H3K36me2 and H3K36me3) in flowering-time regulation (reviewed in Berr et al., 2011).
基金supported by Beijing Municipal Natural Science Foundation(9204023)Ministry of Education“Tiancheng Huizhi”Innovation and Education Promotion Foundation(2018A01012)Premium Funding Project for Academic Human Resources Development in Beijing Union University(BPHR2017DZ08).
文摘In this paper,two problems that exist in parking spot layout of bike-sharing which need to be solved are addressed.One is the size of parking spot,while another is the location of parking spot.First,the generation and attraction model of traffic travel is used to predict the usage requirements of bike-sharing,to acquire the parking requirements of bike-sharing.Then,we establish the best station spacing model to calculate the optimal quantity of parking spots.Moreover,the method of shortest distance clustering is applied to cluster the parking demand spots.Finally,the location optimization of bike-sharing parking spot is carried out by using gravity location model.In summary,the layout of bike-sharing parking spot is finished based on the abovementioned four steps.
