The flooding caused by heavy rainfall in rice irrigation area and the drought caused by the drop of groundwater level are the research focus in the field of irrigation and drainage.Based on the comparative experiment ...The flooding caused by heavy rainfall in rice irrigation area and the drought caused by the drop of groundwater level are the research focus in the field of irrigation and drainage.Based on the comparative experiment and farmland water level control technology,this paper studied the average soil temperature under different soil layers(TM),the daily temperature change(TDC),the photosynthetic accumulation of single leaf and canopy in rice,and response of photothermal energy to rice root characteristics and growth factors in the paddy field under drought conditions.The results showed that the peak soil temperature under drought treatment was basically synchronous with the conventional irrigation,and the it was delayed by 2–6 h under flooding treatment compared to the drought treatment.Under different water gradients,the temperature decreased according to T_(L)>T_(CK)>T_(H)(L,H and CK represented water flooding,drought and control treatments),and the TDC was opposite.In addition to milky stage,the daily photosynthetic(Pn)accumulation of single leaf and canopy in the flooding and drought treated paddy fields were lower than conventional irrigation,and had a negative impact on leaf area index(LAI)and yield(YR),but did not form fatal damage.The root characteristic factors,RL(root length),RW(root weight),R-CR(root-canopy ratio)were promoted with drought,and YR under light drought was slightly higher than that under heavy drought.There was a strong positive correlation between TM and R-CR in all rice growth stages,while TDC-5 was negatively correlated with effective panicle number,TDC and R-CR in 20 cm soil layer were positively correlated.The correlation between daily Pn accumulation and YR was low,and the correlation between Pn and YR factors was negative or weak positive or negative.The total Pn was positively correlated with yield factors,and the correlation coefficient was higher than that of daily Pn.展开更多
Low sperm motility is one of the main causes of male infertility. Cystic fibrosis transmembrane conductance regulator (CFTR, an anion channel protein) is related to the progressive motility of sperm. CFTR disruptor CF...Low sperm motility is one of the main causes of male infertility. Cystic fibrosis transmembrane conductance regulator (CFTR, an anion channel protein) is related to the progressive motility of sperm. CFTR disruptor CFTRinh-172 or forskolin (FSK) in this study were used to treat human sperm separately, and the rates of sperm autophagy and progressive motility, mitochondrial membrane potential (MMP) and ATP concentration, and the expression levels of related factors were detected to explore their relationship. It was showed that sperms treated with CFTRinh-172 or FSK reduced the levels of cAMP, CFTR and PKA, but increased sperm autophagy rate, expression levels of AMPK and LC3B. However, reactive oxygen species content had no significant difference. It was indicated that low level of CFTR performed with cAMP and its downstream effectors such as PKA and AMPK to regulate mitochondrial structure and function, leading to increased autophagy rate and reduced vitality of sperm.展开更多
Ideal nanoscale phase-separated morphology is the primary condition to obtain high photovoltaic conversion efficiency(PCE)and high stability of organic solar cells(OSCs).However,the differences in solubility,miscibili...Ideal nanoscale phase-separated morphology is the primary condition to obtain high photovoltaic conversion efficiency(PCE)and high stability of organic solar cells(OSCs).However,the differences in solubility,miscibility and crystallinity between donors and acceptors make it difficult to achieve the optimal active layer morphology of OSCs.Herein,the volatile solid additive 3,5-dibromotoluene(DTL)with strong electronegativity and dipole moment has been developed for OSCs.DTL can interact with the acceptor,modulating its crystallization and stacking,enhancing donor/acceptor miscibility,reducing trap density,inhibiting carrier recombination,and balancing charge transport.Notably,the introduction of DTL finely tunes the energy level of the accepto r,which greatly enhances the open-circuit voltage(V_(OC))of the device compared to the conventional additive 1,8-diiodooctane(DIO).As a result,the DTL-treated PM6:L8-BObased OSCs obtained a high PCE of 18.87%and enhanced stability.Furthermore,the PM6:PM1:L8-BO+DTL-based OSCs achieved a champion PCE of 19.11%.This work deepens the working mechanism of additive strategy for regulating the morphology and improving performance,providing an effective method for achieving high-performance OSCs.展开更多
A good deal of studies have proven that effective exciton dissociation and fast hole transport can operate efficiently in non-fullerene organic photovoltaics(OPVs)despite nearly zero driving force.Even so,whether such...A good deal of studies have proven that effective exciton dissociation and fast hole transport can operate efficiently in non-fullerene organic photovoltaics(OPVs)despite nearly zero driving force.Even so,whether such a phenomenon is universal and how small the driving force can realize the best photovoltaic performance still require a thorough understanding.Herein,despite the zero driving force based on PM6:F8IC system,a maximum short-circuit current(J_(sc))of 23.0 mA/cm^(2) and high power conversion efficiency(PCE)of 12.2%can still be achieved.Due to the continuously adjustable energy levels can be realized in organic semiconducting alloys including F8IC:IT-4F and F8IC:Y6,the suitable third components can play the role of energy level regulator.Therefore,the HOMO energy level offset(DEHOMO(D A))from zero to 0.07 and 0.06 eV is accomplished in the optimized IT-4F and Y6 ternary devices.Consequently,both ternary devices achieved substantially increased PCE of 13.8%and Jsc of 24.4 and 25.2 mA/cm^(2),respectively.Besides,pseudo-planar heterojunction(PPHJ)devices based on alloyed acceptors through sequential spin-coating method further improve the photovoltaic performance.Our work puts forward the concept of energy level regulator and prove that the ternary alloy strategy has unique advantages and huge research potential in continuously adjusting the driving force.展开更多
基金National Key Research and Development Program(2019YFC0408803)Basic Public Welfare Research Project of Zhejiang Province(LGN20E090001)+2 种基金Major scientific and technological projects of Zhejiang Provincial Department of water resources(RA1913)Water conservancy science and technology in Zhejiang Province(RC1918,RC2029),National Natural Science Foundation of China(52009044)High-level Talent Research Project of North China University of Water Resources and Electric Power(201705017).
文摘The flooding caused by heavy rainfall in rice irrigation area and the drought caused by the drop of groundwater level are the research focus in the field of irrigation and drainage.Based on the comparative experiment and farmland water level control technology,this paper studied the average soil temperature under different soil layers(TM),the daily temperature change(TDC),the photosynthetic accumulation of single leaf and canopy in rice,and response of photothermal energy to rice root characteristics and growth factors in the paddy field under drought conditions.The results showed that the peak soil temperature under drought treatment was basically synchronous with the conventional irrigation,and the it was delayed by 2–6 h under flooding treatment compared to the drought treatment.Under different water gradients,the temperature decreased according to T_(L)>T_(CK)>T_(H)(L,H and CK represented water flooding,drought and control treatments),and the TDC was opposite.In addition to milky stage,the daily photosynthetic(Pn)accumulation of single leaf and canopy in the flooding and drought treated paddy fields were lower than conventional irrigation,and had a negative impact on leaf area index(LAI)and yield(YR),but did not form fatal damage.The root characteristic factors,RL(root length),RW(root weight),R-CR(root-canopy ratio)were promoted with drought,and YR under light drought was slightly higher than that under heavy drought.There was a strong positive correlation between TM and R-CR in all rice growth stages,while TDC-5 was negatively correlated with effective panicle number,TDC and R-CR in 20 cm soil layer were positively correlated.The correlation between daily Pn accumulation and YR was low,and the correlation between Pn and YR factors was negative or weak positive or negative.The total Pn was positively correlated with yield factors,and the correlation coefficient was higher than that of daily Pn.
文摘Low sperm motility is one of the main causes of male infertility. Cystic fibrosis transmembrane conductance regulator (CFTR, an anion channel protein) is related to the progressive motility of sperm. CFTR disruptor CFTRinh-172 or forskolin (FSK) in this study were used to treat human sperm separately, and the rates of sperm autophagy and progressive motility, mitochondrial membrane potential (MMP) and ATP concentration, and the expression levels of related factors were detected to explore their relationship. It was showed that sperms treated with CFTRinh-172 or FSK reduced the levels of cAMP, CFTR and PKA, but increased sperm autophagy rate, expression levels of AMPK and LC3B. However, reactive oxygen species content had no significant difference. It was indicated that low level of CFTR performed with cAMP and its downstream effectors such as PKA and AMPK to regulate mitochondrial structure and function, leading to increased autophagy rate and reduced vitality of sperm.
基金supported by the National Natural Science Foundation of China(NSFC Grant Nos.62075029,52130304,62105055,62222503,62474028 and 52073040)The Fundamental Research Funds for the Central Universities(Program No.ZYGX2021J017)+5 种基金Sichuan Provincial Regional Innovation Cooperation Project(Program No.2022YFQ0078)Creative Research Groups of the National Natural Science Foundation of Sichuan Province(2023NSFSC1973)The Sichuan Science and Technology Program(Grant No.2024NSFSC0012,2024NSFSC1447)The Sichuan Science and Technology Program(Grant Nos.2024NSFSC1446)National Key R and D Program of China(2023YFB2604101)The China Postdoctoral Science Foundation(Grant Nos.2023M740504,GZC20230380)。
文摘Ideal nanoscale phase-separated morphology is the primary condition to obtain high photovoltaic conversion efficiency(PCE)and high stability of organic solar cells(OSCs).However,the differences in solubility,miscibility and crystallinity between donors and acceptors make it difficult to achieve the optimal active layer morphology of OSCs.Herein,the volatile solid additive 3,5-dibromotoluene(DTL)with strong electronegativity and dipole moment has been developed for OSCs.DTL can interact with the acceptor,modulating its crystallization and stacking,enhancing donor/acceptor miscibility,reducing trap density,inhibiting carrier recombination,and balancing charge transport.Notably,the introduction of DTL finely tunes the energy level of the accepto r,which greatly enhances the open-circuit voltage(V_(OC))of the device compared to the conventional additive 1,8-diiodooctane(DIO).As a result,the DTL-treated PM6:L8-BObased OSCs obtained a high PCE of 18.87%and enhanced stability.Furthermore,the PM6:PM1:L8-BO+DTL-based OSCs achieved a champion PCE of 19.11%.This work deepens the working mechanism of additive strategy for regulating the morphology and improving performance,providing an effective method for achieving high-performance OSCs.
基金support the National Natural Science Foundation of China(NSFC)(51973032,and 21905043)support from the National Natural Science Foundation of China(NSFC)(51833004)financial support by the National Key Research and Development Program of China(2017YFA0207700)。
文摘A good deal of studies have proven that effective exciton dissociation and fast hole transport can operate efficiently in non-fullerene organic photovoltaics(OPVs)despite nearly zero driving force.Even so,whether such a phenomenon is universal and how small the driving force can realize the best photovoltaic performance still require a thorough understanding.Herein,despite the zero driving force based on PM6:F8IC system,a maximum short-circuit current(J_(sc))of 23.0 mA/cm^(2) and high power conversion efficiency(PCE)of 12.2%can still be achieved.Due to the continuously adjustable energy levels can be realized in organic semiconducting alloys including F8IC:IT-4F and F8IC:Y6,the suitable third components can play the role of energy level regulator.Therefore,the HOMO energy level offset(DEHOMO(D A))from zero to 0.07 and 0.06 eV is accomplished in the optimized IT-4F and Y6 ternary devices.Consequently,both ternary devices achieved substantially increased PCE of 13.8%and Jsc of 24.4 and 25.2 mA/cm^(2),respectively.Besides,pseudo-planar heterojunction(PPHJ)devices based on alloyed acceptors through sequential spin-coating method further improve the photovoltaic performance.Our work puts forward the concept of energy level regulator and prove that the ternary alloy strategy has unique advantages and huge research potential in continuously adjusting the driving force.
