In this article,we report a 3D NiFe phosphite oxyhydroxide plastic electrode using high-resolution digital light processing(DLP)3D-printing technology via induced chemical deposition method.The as-prepared 3D plastic ...In this article,we report a 3D NiFe phosphite oxyhydroxide plastic electrode using high-resolution digital light processing(DLP)3D-printing technology via induced chemical deposition method.The as-prepared 3D plastic electrode exhibits no template requirement,freedom design,low-cost,robust,anticorrosion,lightweight,and micro-nano porous characteristics.It can be drawn to the conclusion that highly oriented open-porous 3D geometry structure will be beneficial for improving surface catalytic active area,wetting performance,and reaction–diffusion dynamics of plastic electrodes for oxygen evolution reaction(OER)catalysis process.Density functional theory(DFT)calculation interprets the origin of high activity of NiFe(PO_(3))O(OH)and demonstrates that the implantation of the–PO_(3)can effectively bind the 3d orbital of Ni in NiFe(PO_(3))O(OH),lead to the weak adsorption of intermediate,make electron more active to improve the conductivity,thereby lowing the transform free energy of*O to*OOH.The water oxidization performance of as-prepared 3D NiFe(PO_(3))O(OH)hollow tubular(HT)lattice plastic electrode has almost reached the state-of-the-art level compared with the as-reported large-current-density catalysts or 3D additive manufactured plastic/metal-based electrodes,especially for high current OER electrodes.This work breaks through the bottleneck that plagues the performance improvement of low-cost high-current electrodes.展开更多
Lowering the synthesis temperature of boron nitride nanotubes(BNNTs)is crucial for their development.The primary reason for adopting a high temperature is to enable the effective activation of highmelting-point solid ...Lowering the synthesis temperature of boron nitride nanotubes(BNNTs)is crucial for their development.The primary reason for adopting a high temperature is to enable the effective activation of highmelting-point solid boron.In this study,we developed a novel approach for efficiently activating boron by introducing alkali metal compounds into the conventional MgO–B system.This approach can be adopted to form various low-melting-point AM–Mg–B–O growth systems.These growth systems have improved catalytic capability and reactivity even under low-temperature conditions,facilitating the synthesis of BNNTs at temperatures as low as 850℃.In addition,molecular dynamics simulations based on density functional theory theoretically demonstrate that the systems maintain a liquid state at low temperatures and interact with N atoms to form BN chains.These findings offer novel insights into the design of boron activation and are expected to facilitate research on the low-temperature synthesis of BNNTs.展开更多
Distant hybridization is widely used to develop crop cultivars,whereas the hybridization process of embryo abortion often severely reduces the sought-after breeding effect.The LEAFY COTYLEDON1(LEC1)gene has been exten...Distant hybridization is widely used to develop crop cultivars,whereas the hybridization process of embryo abortion often severely reduces the sought-after breeding effect.The LEAFY COTYLEDON1(LEC1)gene has been extensively investigated as a central regulator of seed development,but it is far less studied in crop hybridization breeding.Here we investigated the function and regulation mechanism of CmLEC1 from Chrysanthemum morifolium during its seed development in chrysanthemum hybridization.CmLEC1 encodes a nucleic protein and is specifically expressed in embryos.CmLEC1’s overexpression significantly promoted the seed-setting rate of the cross,while the rate was significantly decreased in the amiR-CmLEC1 transgenic chrysanthemum.The RNA-Seq analysis of the developing hybrid embryos revealed that regulatory genes involved in seed development,namely,CmLEA(late embryogenesis abundant protein),CmOLE(oleosin),CmSSP(seed storage protein),and CmEM(embryonic protein),were upregulated in the OE(overexpressing)lines but downregulated in the amiR lines vs.wild-type lines.Future analysis demonstrated that CmLEC1 directly activated CmLEA expression and interacted with CmC3H,and this CmLEC1–CmC3H interaction could enhance the transactivation ability of CmLEC1 for the expression of CmLEA.Further,CmLEC1 was able to induce several other key genes related to embryo development.Taken together,our results show that CmLEC1 plays a positive role in the hybrid embryo development of chrysanthemum plants,which might involve activating CmLEA’s expression and interacting with CmC3H.This may be a new pathway in the LEC1 regulatory network to promote seed development,one perhaps leading to a novel strategy to not only overcome embryo abortion during crop breeding but also increase the seed yield.展开更多
WRKY transcription factors(TFs)are of great importance in plant responses to different abiotic stresses.However,research on their roles in the regulation of thermotolerance remains limited.Here,we investigated the fun...WRKY transcription factors(TFs)are of great importance in plant responses to different abiotic stresses.However,research on their roles in the regulation of thermotolerance remains limited.Here,we investigated the function of LlWRKY39 in the thermotolerance of lily(Lilium longiflorum‘white heaven’).According to multiple alignment analyses,LIWRKY39 is in the WRKY IId subclass and contains a potential calmodulin(CaM)-binding domain.Further analysis has shown that LlCaM3 interacts with LlWRKY39 by binding to its CaM-binding domain,and this interaction depends on Ca^(2).LIWRKY39 was induced by heat stress(HS),and the LIWRKY39-GFP fusion protein was detected in the nucleus.The thermotolerance of lily and Arabidopsis was increased with the ectopic overexpression of LlWRKY39.The expression of heat-related genes AtHSFA1,AtHSFA2,AtMBF1c,AtGolS1,AtDREB2A,AtWRKY39,and AtHSP101 was significantly elevated in transgenic Arabidopsis lines,which might have promoted an increase in thermotolerance.Then,the promoter of LlMBF1c was isolated from lily,and LlWRKY39 was found to bind to the conserved W-box element in its promoter to activate its activity,suggesting that LlWRKY39 is an upstream regulator of LlMBF1c.In addition,a dual-luciferase reporter assay showed that via protein interaction,LlCaM3 negatively affected LlWRKY39 in the transcriptional activation of LlMBF1c,which might be an important feedback regulation pathway to balance the LlWRKY39-mediated heat stress response(HSR).Collectively,these results imply that LlWRKY39 might participate in the HSR as an important regulator through Ca^(2+)-CaM and multiprotein bridging factor pathways.展开更多
Film-based fluorescent sensors (FFSs) differentiate themselves from conventional sensors and disposable probes owing to their fascinating merits of small size, power saving, easy operation, as well as high sensitivity...Film-based fluorescent sensors (FFSs) differentiate themselves from conventional sensors and disposable probes owing to their fascinating merits of small size, power saving, easy operation, as well as high sensitivity and designability. Therefore, they were recently selected by the International Union of Pure and Applied Chemistry as one of the Top Ten Emerging Technologies in Chemistry 2022 [1].展开更多
Visible light communication(VLC)is an emerging technology employing light-emitting diodes(LEDs)to provide illumination and wireless data transmission simultaneously.Harnessing cost-efficient printable organic LEDs(OLE...Visible light communication(VLC)is an emerging technology employing light-emitting diodes(LEDs)to provide illumination and wireless data transmission simultaneously.Harnessing cost-efficient printable organic LEDs(OLEDs)as environmentally friendly transmitters in VLC systems is extremely attractive for future applications in spectroscopy,the internet of things,sensing,and optical ranging in general.Here,we summarize the latest research progress on emerging semiconductor materials for LED sources in VLC,and highlight that OLEDs based on nontoxic and cost-efficient organic semiconductors have great opportunities for optical communication.We further examine efforts to achieve high-performance white OLEDs for general lighting,and,in particular,focus on the research status and opportunities for OLED-based VLC.Different solution-processable fabrication and printing strategies to develop high-performance OLEDs are also discussed.Finally,an outlook on future challenges and potential prospects of the next-generation organic VLC is provided.展开更多
Background and purpose The inflammatory response mediated by microglia/macrophages is closely related to cerebral ischaemia/reperfusion injury.Wild-type p53-induced protein phosphatase 1(Wip1),a serine/threonine phosp...Background and purpose The inflammatory response mediated by microglia/macrophages is closely related to cerebral ischaemia/reperfusion injury.Wild-type p53-induced protein phosphatase 1(Wip1),a serine/threonine phosphatase,is expressed in various tissues.A growing number of reports have suggested that Wip1 is a negative regulator of inflammation in peripheral tissue;however,its role in the central nervous system(CNS)remains unclear.This study aimed to clarify whether Wip1 can inhibit CNS inflammation by regulating microglia/macrophage functions after ischaemic injury.Methods A model of middle cerebral artery occlusion and reperfusion was established in mice.CNS inflammation was simulated by lipopolysaccharide treatment of primary microglia.Laser speckle imaging was used to monitor regional cerebral blood flow.Behavioural outcomes were assessed with a TreadScan gait analysis system.TTC staining was used to evaluate the infarct volume,and western blotting and immunofluorescence staining were applied to detect the phenotypical transformation of microglia.ELISA was performed to detect the levels of inflammatory factors.Results Wip1 expression was increased after ischaemia/reperfusion.Wip1-knockout(KO)mice displayed more severe brain injury than wild-type mice,as indicated by aggravated motor dysfunction,greater brain infarct volumes and higher expression of inflammatory cytokines(interleukin-6 and tumour necrosis factor alpha)in the brain.We also found that Wip1 depletion increased microglial/macrophage activation in both in vitro and in vivo models,which all showed activation of microglia/macrophages.Lentivirus-Ppm1d reversed the injury induced by Wip1-KO.Conclusions Our results suggest that Wip1 may inhibit neuroinflammation by inhibiting microglial/macrophage activation after brain ischaemia/reperfusion injury.展开更多
This paper studies the property of the recursive sequences in the 3x + 1 conjecture. The authors introduce the concept of μ function, with which the 3x + 1 conjecture can be transformed into two other conjectures:...This paper studies the property of the recursive sequences in the 3x + 1 conjecture. The authors introduce the concept of μ function, with which the 3x + 1 conjecture can be transformed into two other conjectures: one is eventually periodic conjecture of the μ function and the other is periodic point conjecture. The authors prove that the 3x + 1 conjecture is equivalent to the two conjectures above. In 2007, J. L. Simons proved the non-existence of nontrivial 2-cycle for the T function. In this paper, the authors prove that the μ function has nol-periodic points for 2 ≤ 1 ≤12. In 2005, J. L. Simons and B. M. M de Weger proved that there is no nontrivial/-cycle for the T function for 1 ≤68, and in this paper, the authors prove that there is no nontrivial l-cycle for the μ function for 2 ≤ 1≤ 102.展开更多
Saudi Arabia is the largest economy in West Asia and North Africa which plays an important role in politics,economy and other fields in the Middle East and the whole world.Since 2016,highlevel visits between China and...Saudi Arabia is the largest economy in West Asia and North Africa which plays an important role in politics,economy and other fields in the Middle East and the whole world.Since 2016,highlevel visits between China and Saudi Arabia are more frequent.China and Saudi Arabia have established a comprehensive strategic partnership and established a comprehensive,high-level and institutional cooperation platform-the China Saudi highlevel joint committee.Under the overall coordination of this mechanism,the economic and trade cooperation between China and Saudi Arabia,which focuses on energy sources,industrial cooperation,trade and investment is in an unprecedented period of strategic opportunities.The China-Saudi Arabia(Jizan)Industrial Park is a major investment project to deepen production capacity cooperation between China and Saudi Arabia.At present,it has made positive progress in communication and coordination mechanisms,infrastructure construction and introduction of enterprises into the park.Therefore,this paper argues that under the guidance of the Belt and Road Initiative,China and Saudi Arabia should accelerate the docking of development strategies,facilitate the construction of overseas industrial parks such as the Jizan Industrial Park,attract more investment of manufacturing enterprises from China and third market countries,endeavour to build the Jizan Industrial Park as a landmark project of practical cooperation between China and Saudi Arabia,boost the implementation of Saudi Arabia’s‘Vision 2030’,and promote the industrialization process of Arab countries.展开更多
Based on three rationally designed pyrrole-appended o-carborane derivatives,we present that fluores-cence properties of crystalline materials are highly dependent on intermolecular interaction and steric hinderance.Th...Based on three rationally designed pyrrole-appended o-carborane derivatives,we present that fluores-cence properties of crystalline materials are highly dependent on intermolecular interaction and steric hinderance.Though the three molecules are similar in structure,single crystals of the three compounds showed obvious difference in molecular stacking and fluorescence behavior.Systematic studies indicate that fluorescence quantum yields,thermo-response as well as mechano-response are highly dependent on intermolecular interaction and steric hindrance.In the three crystalline materials,the CB-NMe crys-tals with weaker intermolecular interaction and looser molecular packing showed superior fluorescence quantum yield and temperature sensitivity.Accordingly,surface temperature detection strip with favor-able reversibility is prepared by doping CB-NMe into the polymer.In addition,the CB-NMe aggregates can be used for monitoring bovine serum albumin(BSA)denaturation,as temperature response of the aggregates can be reversed when co-assembled with BSA.展开更多
Two-dimensional(2 D) nanofluidic systems provide a highly efficient way to integrate a huge amount of cascading lamellar nanofluidic channels into macroscopic membrane materials for practical use in, for example, mo...Two-dimensional(2 D) nanofluidic systems provide a highly efficient way to integrate a huge amount of cascading lamellar nanofluidic channels into macroscopic membrane materials for practical use in, for example, molecular separation, water treatment, and energy storage. Besides the well-studied graphenebased materials, other 2 D nanomaterials, such as the transition metal dichalcogenides(TMDCs), are expected as promising alternatives. Here, we report strong ionic current rectification(ICR) effect found in Mo S2/WSe2 bi-layered membrane structure. The preferential direction for ion transport is from the WSe2 layers to the Mo S2 layers. The maximum ICR ratio approaches 35 at intermediate electrolyte concentration. More intriguingly, by exchanging the deposition order of the Mo S2 and WSe2 layers, the observed ICR effect can be reversed. These evidences justify that the highly rectified ion transport phenomenon results from the asymmetry in the reconstructed 2 D layered materials. This work is the first discovery of ICR effect in 2 D nanofluidic heterostructures, and provides further opportunities for innovative nanofluidic devices and materials.展开更多
基金the National Natural Science Foundation of China(52001173&52100190)the Jiangsu Specially-Appointed Professor Program,Natural Science Foundation of Jiangsu Province(BK20200970&BK20210834)+2 种基金General Project of Natural Science Research in Jiangsu Colleges and Universities(20KJB530011&20KJB430046)Research Fund of Nantong University(03083054)National College Students'innovation and entrepreneurship training program(202110304019Z)for financial support.
文摘In this article,we report a 3D NiFe phosphite oxyhydroxide plastic electrode using high-resolution digital light processing(DLP)3D-printing technology via induced chemical deposition method.The as-prepared 3D plastic electrode exhibits no template requirement,freedom design,low-cost,robust,anticorrosion,lightweight,and micro-nano porous characteristics.It can be drawn to the conclusion that highly oriented open-porous 3D geometry structure will be beneficial for improving surface catalytic active area,wetting performance,and reaction–diffusion dynamics of plastic electrodes for oxygen evolution reaction(OER)catalysis process.Density functional theory(DFT)calculation interprets the origin of high activity of NiFe(PO_(3))O(OH)and demonstrates that the implantation of the–PO_(3)can effectively bind the 3d orbital of Ni in NiFe(PO_(3))O(OH),lead to the weak adsorption of intermediate,make electron more active to improve the conductivity,thereby lowing the transform free energy of*O to*OOH.The water oxidization performance of as-prepared 3D NiFe(PO_(3))O(OH)hollow tubular(HT)lattice plastic electrode has almost reached the state-of-the-art level compared with the as-reported large-current-density catalysts or 3D additive manufactured plastic/metal-based electrodes,especially for high current OER electrodes.This work breaks through the bottleneck that plagues the performance improvement of low-cost high-current electrodes.
基金supported by the National Natural Science Foundation of China(No.51972162)the Fundamental Research Funds for the Central Universities(No.2024300440).
文摘Lowering the synthesis temperature of boron nitride nanotubes(BNNTs)is crucial for their development.The primary reason for adopting a high temperature is to enable the effective activation of highmelting-point solid boron.In this study,we developed a novel approach for efficiently activating boron by introducing alkali metal compounds into the conventional MgO–B system.This approach can be adopted to form various low-melting-point AM–Mg–B–O growth systems.These growth systems have improved catalytic capability and reactivity even under low-temperature conditions,facilitating the synthesis of BNNTs at temperatures as low as 850℃.In addition,molecular dynamics simulations based on density functional theory theoretically demonstrate that the systems maintain a liquid state at low temperatures and interact with N atoms to form BN chains.These findings offer novel insights into the design of boron activation and are expected to facilitate research on the low-temperature synthesis of BNNTs.
基金This study was supported by the National Natural Science Foundation of China(nos.31171983 and 31672182).
文摘Distant hybridization is widely used to develop crop cultivars,whereas the hybridization process of embryo abortion often severely reduces the sought-after breeding effect.The LEAFY COTYLEDON1(LEC1)gene has been extensively investigated as a central regulator of seed development,but it is far less studied in crop hybridization breeding.Here we investigated the function and regulation mechanism of CmLEC1 from Chrysanthemum morifolium during its seed development in chrysanthemum hybridization.CmLEC1 encodes a nucleic protein and is specifically expressed in embryos.CmLEC1’s overexpression significantly promoted the seed-setting rate of the cross,while the rate was significantly decreased in the amiR-CmLEC1 transgenic chrysanthemum.The RNA-Seq analysis of the developing hybrid embryos revealed that regulatory genes involved in seed development,namely,CmLEA(late embryogenesis abundant protein),CmOLE(oleosin),CmSSP(seed storage protein),and CmEM(embryonic protein),were upregulated in the OE(overexpressing)lines but downregulated in the amiR lines vs.wild-type lines.Future analysis demonstrated that CmLEC1 directly activated CmLEA expression and interacted with CmC3H,and this CmLEC1–CmC3H interaction could enhance the transactivation ability of CmLEC1 for the expression of CmLEA.Further,CmLEC1 was able to induce several other key genes related to embryo development.Taken together,our results show that CmLEC1 plays a positive role in the hybrid embryo development of chrysanthemum plants,which might involve activating CmLEA’s expression and interacting with CmC3H.This may be a new pathway in the LEC1 regulatory network to promote seed development,one perhaps leading to a novel strategy to not only overcome embryo abortion during crop breeding but also increase the seed yield.
基金the National Key R&D Program of China(Grant No.2019YFD1000400)the National Natural Science Foundation of China(31902055)+2 种基金the High Level Talent Project of the Top Six Talents in Jiangsu,China(NY-077)the Natural Science Foundation of Jiangsu Province,China(BK20190532)the Fundamental Research Funds for the Central Universities(KJQN202032)。
文摘WRKY transcription factors(TFs)are of great importance in plant responses to different abiotic stresses.However,research on their roles in the regulation of thermotolerance remains limited.Here,we investigated the function of LlWRKY39 in the thermotolerance of lily(Lilium longiflorum‘white heaven’).According to multiple alignment analyses,LIWRKY39 is in the WRKY IId subclass and contains a potential calmodulin(CaM)-binding domain.Further analysis has shown that LlCaM3 interacts with LlWRKY39 by binding to its CaM-binding domain,and this interaction depends on Ca^(2).LIWRKY39 was induced by heat stress(HS),and the LIWRKY39-GFP fusion protein was detected in the nucleus.The thermotolerance of lily and Arabidopsis was increased with the ectopic overexpression of LlWRKY39.The expression of heat-related genes AtHSFA1,AtHSFA2,AtMBF1c,AtGolS1,AtDREB2A,AtWRKY39,and AtHSP101 was significantly elevated in transgenic Arabidopsis lines,which might have promoted an increase in thermotolerance.Then,the promoter of LlMBF1c was isolated from lily,and LlWRKY39 was found to bind to the conserved W-box element in its promoter to activate its activity,suggesting that LlWRKY39 is an upstream regulator of LlMBF1c.In addition,a dual-luciferase reporter assay showed that via protein interaction,LlCaM3 negatively affected LlWRKY39 in the transcriptional activation of LlMBF1c,which might be an important feedback regulation pathway to balance the LlWRKY39-mediated heat stress response(HSR).Collectively,these results imply that LlWRKY39 might participate in the HSR as an important regulator through Ca^(2+)-CaM and multiprotein bridging factor pathways.
基金supported by the National Natural Science Foundation of China(11875032)the National Key R&D Program of China(2021YFB3200100)+1 种基金the Key R&D program of Shaanxi Province,China(2022JM-373 and 2021GY-221)the Youth Talent Invitation Scheme of Shaanxi Association for science and technology(20190506).
基金supported by the National Key Research and Development Program of China (SQ2022YFA1200081)Ministry of Science and Technology of China (2022010133)+2 种基金the National Natural Science Foundation of China (21820102005, 22132002)111 Project (B14041)the Earmarked Fund of Shaanxi Province。
文摘Film-based fluorescent sensors (FFSs) differentiate themselves from conventional sensors and disposable probes owing to their fascinating merits of small size, power saving, easy operation, as well as high sensitivity and designability. Therefore, they were recently selected by the International Union of Pure and Applied Chemistry as one of the Top Ten Emerging Technologies in Chemistry 2022 [1].
基金funding from the Royal Society through a Newton International Fellowship,the Key Research and Development Program of Shaanxi Province(Grant No.2023-YBGY-198)the Doctoral Scientific Research Start-up Foundation of Shaanxi University of Science and Technology(Grant No.126022255)+3 种基金T.X.was supported by the National Natural Science Foundation of China(Grant No.51802184)X.W.was supported by the Shaanxi Province Innovation Capability Support Plan-Youth Science and Technology Nova Project(Grant No.2023KJXX-141)the National Natural Science Foundation of China(Grant No.62004120)F.Z.was supported by the Education Department of Shaanxi Province Serves the Local Special Plan Project(Grant No.17JF006).
文摘Visible light communication(VLC)is an emerging technology employing light-emitting diodes(LEDs)to provide illumination and wireless data transmission simultaneously.Harnessing cost-efficient printable organic LEDs(OLEDs)as environmentally friendly transmitters in VLC systems is extremely attractive for future applications in spectroscopy,the internet of things,sensing,and optical ranging in general.Here,we summarize the latest research progress on emerging semiconductor materials for LED sources in VLC,and highlight that OLEDs based on nontoxic and cost-efficient organic semiconductors have great opportunities for optical communication.We further examine efforts to achieve high-performance white OLEDs for general lighting,and,in particular,focus on the research status and opportunities for OLED-based VLC.Different solution-processable fabrication and printing strategies to develop high-performance OLEDs are also discussed.Finally,an outlook on future challenges and potential prospects of the next-generation organic VLC is provided.
基金This study was funded by Incubation foundation of Capital Medical University(PYZ2018061)Nature and Sciences Foundation of China(81430044,81974183,81930054,82072104).
文摘Background and purpose The inflammatory response mediated by microglia/macrophages is closely related to cerebral ischaemia/reperfusion injury.Wild-type p53-induced protein phosphatase 1(Wip1),a serine/threonine phosphatase,is expressed in various tissues.A growing number of reports have suggested that Wip1 is a negative regulator of inflammation in peripheral tissue;however,its role in the central nervous system(CNS)remains unclear.This study aimed to clarify whether Wip1 can inhibit CNS inflammation by regulating microglia/macrophage functions after ischaemic injury.Methods A model of middle cerebral artery occlusion and reperfusion was established in mice.CNS inflammation was simulated by lipopolysaccharide treatment of primary microglia.Laser speckle imaging was used to monitor regional cerebral blood flow.Behavioural outcomes were assessed with a TreadScan gait analysis system.TTC staining was used to evaluate the infarct volume,and western blotting and immunofluorescence staining were applied to detect the phenotypical transformation of microglia.ELISA was performed to detect the levels of inflammatory factors.Results Wip1 expression was increased after ischaemia/reperfusion.Wip1-knockout(KO)mice displayed more severe brain injury than wild-type mice,as indicated by aggravated motor dysfunction,greater brain infarct volumes and higher expression of inflammatory cytokines(interleukin-6 and tumour necrosis factor alpha)in the brain.We also found that Wip1 depletion increased microglial/macrophage activation in both in vitro and in vivo models,which all showed activation of microglia/macrophages.Lentivirus-Ppm1d reversed the injury induced by Wip1-KO.Conclusions Our results suggest that Wip1 may inhibit neuroinflammation by inhibiting microglial/macrophage activation after brain ischaemia/reperfusion injury.
基金supported by Natural Science Foundation of China under Grant Nos.60833008 and 60902024
文摘This paper studies the property of the recursive sequences in the 3x + 1 conjecture. The authors introduce the concept of μ function, with which the 3x + 1 conjecture can be transformed into two other conjectures: one is eventually periodic conjecture of the μ function and the other is periodic point conjecture. The authors prove that the 3x + 1 conjecture is equivalent to the two conjectures above. In 2007, J. L. Simons proved the non-existence of nontrivial 2-cycle for the T function. In this paper, the authors prove that the μ function has nol-periodic points for 2 ≤ 1 ≤12. In 2005, J. L. Simons and B. M. M de Weger proved that there is no nontrivial/-cycle for the T function for 1 ≤68, and in this paper, the authors prove that there is no nontrivial l-cycle for the μ function for 2 ≤ 1≤ 102.
基金the research outcomes of the major project‘A Study of China’s Overall Diplomacy to Arab States under the Framework of the China-Arab Cooperation Forum’(19AGJ010),a program of 2019 Key projects of National Social Science Fund,National Office for Philosophy and Social Sciences,China.
文摘Saudi Arabia is the largest economy in West Asia and North Africa which plays an important role in politics,economy and other fields in the Middle East and the whole world.Since 2016,highlevel visits between China and Saudi Arabia are more frequent.China and Saudi Arabia have established a comprehensive strategic partnership and established a comprehensive,high-level and institutional cooperation platform-the China Saudi highlevel joint committee.Under the overall coordination of this mechanism,the economic and trade cooperation between China and Saudi Arabia,which focuses on energy sources,industrial cooperation,trade and investment is in an unprecedented period of strategic opportunities.The China-Saudi Arabia(Jizan)Industrial Park is a major investment project to deepen production capacity cooperation between China and Saudi Arabia.At present,it has made positive progress in communication and coordination mechanisms,infrastructure construction and introduction of enterprises into the park.Therefore,this paper argues that under the guidance of the Belt and Road Initiative,China and Saudi Arabia should accelerate the docking of development strategies,facilitate the construction of overseas industrial parks such as the Jizan Industrial Park,attract more investment of manufacturing enterprises from China and third market countries,endeavour to build the Jizan Industrial Park as a landmark project of practical cooperation between China and Saudi Arabia,boost the implementation of Saudi Arabia’s‘Vision 2030’,and promote the industrialization process of Arab countries.
基金funding from the Natural Science Foundation of China (Nos. 22072084, 21820102005)111 Project (No. B14041)+1 种基金the Fundamental Research Funds for the Central Universities (Nos. GK202103048, GK202001005, 2020CSLY008)the Innovation Capability Support Program of Shaanxi (No. 2021TD-18)
文摘Based on three rationally designed pyrrole-appended o-carborane derivatives,we present that fluores-cence properties of crystalline materials are highly dependent on intermolecular interaction and steric hinderance.Though the three molecules are similar in structure,single crystals of the three compounds showed obvious difference in molecular stacking and fluorescence behavior.Systematic studies indicate that fluorescence quantum yields,thermo-response as well as mechano-response are highly dependent on intermolecular interaction and steric hindrance.In the three crystalline materials,the CB-NMe crys-tals with weaker intermolecular interaction and looser molecular packing showed superior fluorescence quantum yield and temperature sensitivity.Accordingly,surface temperature detection strip with favor-able reversibility is prepared by doping CB-NMe into the polymer.In addition,the CB-NMe aggregates can be used for monitoring bovine serum albumin(BSA)denaturation,as temperature response of the aggregates can be reversed when co-assembled with BSA.
基金supported by the National Natural Science Foundation of China (Nos. 21522108, 11290163)
文摘Two-dimensional(2 D) nanofluidic systems provide a highly efficient way to integrate a huge amount of cascading lamellar nanofluidic channels into macroscopic membrane materials for practical use in, for example, molecular separation, water treatment, and energy storage. Besides the well-studied graphenebased materials, other 2 D nanomaterials, such as the transition metal dichalcogenides(TMDCs), are expected as promising alternatives. Here, we report strong ionic current rectification(ICR) effect found in Mo S2/WSe2 bi-layered membrane structure. The preferential direction for ion transport is from the WSe2 layers to the Mo S2 layers. The maximum ICR ratio approaches 35 at intermediate electrolyte concentration. More intriguingly, by exchanging the deposition order of the Mo S2 and WSe2 layers, the observed ICR effect can be reversed. These evidences justify that the highly rectified ion transport phenomenon results from the asymmetry in the reconstructed 2 D layered materials. This work is the first discovery of ICR effect in 2 D nanofluidic heterostructures, and provides further opportunities for innovative nanofluidic devices and materials.