As one of the core parts of two-terminal(2 T) monolithic tandem photovoltaics, the interconnecting layers(ICLs) play a critical role in modulating the carrier transport and recombination between the sub-cells,and thus...As one of the core parts of two-terminal(2 T) monolithic tandem photovoltaics, the interconnecting layers(ICLs) play a critical role in modulating the carrier transport and recombination between the sub-cells,and thus influencing the tandem device performance. Here, for the first time, the relationship between ICLs architecture and 2 T monolithic perovskite/organic tandem device performance has been studied by investigating the change of ICLs composition layer thickness on the ICLs optical and electrical properties, sub-cells EQE properties, and tandem device J-V properties. It is revealed that the ability of ICLs on modulating the sub-cells carrier balance properties is strongly associated with its composited layers thickness, and the tandem device carrier balance properties can be reflected by the relative EQE intensity between the sub-cells. Finally, with a deep understanding of the mechanisms, rational design of ICLs can be made to benefit the tandem device development. Based on the optimized ICL a high PCE of 20.03% is achieved.展开更多
Physiological adaptation of tree shrews(Tupaia belangeri)to changing environmental temperature has been re-ported in detail.However,the T.belangeri origin(mainland or island),population history,and adaptation to histo...Physiological adaptation of tree shrews(Tupaia belangeri)to changing environmental temperature has been re-ported in detail.However,the T.belangeri origin(mainland or island),population history,and adaptation to histor-ical climate change remain largely unknown or controversial.Here,for thefirst time,we sequenced the simplified genome of 134 T.belangeri individuals from 12 populations in China and further resequenced one individual from each population.Using population genomic approaches,wefirst observed considerable genetic variation in T.be-langeri.Moreover,T.belangeri populations formed obvious genetic structure and reflected different demographic histories;they generally exhibited high genetic diversity,although the isolated populations had relatively low ge-netic diversity.The results presented in this study indicate that T.b.modesta and T.b.tonquinia were separated recently and with a similar population dynamics.Second,physical barriers rather than distance were the driving factors of divergence,and environmental heterogeneity may play an important role in genetic differentiation in T.belangeri.Moreover,our analyses highlight the role of historical global climates in the T.belangeri population dynamics and indicate that the decrease of the T.belangeri population size may be due to the low temperature.Finally,we identified the olfaction-associated adaptive genes between different altitude populations and found that olfactory-related genes of high-altitude populations were selectively eliminated.Our study provides demographic history knowledge of T.belangeri;their adaption history offers new insights into their evolution and adaptation,and provides valuable baseline information for conservation measures.展开更多
Polymer hole-transport layers(HTLs)are critical components of inverted perovskite solar cells(IPVSCs).Triphenylamine derivatives PTAA(poly[bis(4-phenyl)(2,4,6-trimethylphenyl)amine])and Poly-TPD(poly[N,N′-bis(4-butyl...Polymer hole-transport layers(HTLs)are critical components of inverted perovskite solar cells(IPVSCs).Triphenylamine derivatives PTAA(poly[bis(4-phenyl)(2,4,6-trimethylphenyl)amine])and Poly-TPD(poly[N,N′-bis(4-butylphenyl)-N,N′-bis(phenyl)benzidine])have been widely adopted as hole-transport materials due to their perovskite passivation effects and suitable energy levels.However,the passivation mechanism(i.e.,the functional group responsible for perovskite passivation)of triphenylamine derivative polymers remains unclear,hindering the development and application of this polymer type.Here,we develop a novel Poly-TPD derivative,S-Poly-TPD,by replacing the n-butyl functional group of Poly-TPD with an isobutyl group to explore the influence of alkyl groups on HTL performance and top-deposited perovskite properties.Compared with Poly-TPD,the increased CH_(3)-terminal unit density and the decreased spatial distance between the-CH-CH_(3) and-CH_(2)-CH_(3) units and the benzene ring in S-Poly-TPD not only enhanced the hole-transport ability but also improved the perovskite passivation effect,revealing for the first time the role of the alkyl groups in perovskite passivation.As a result,the S-Poly-TPD-based IPVSCs demonstrated high power-conversion efficiencies of 15.1% and 21.3% in wide-bandgap[MAPbI_(2)Br(SCN)0.12]and normal-bandgap[(FAPbI_(3))0.92(MAPbBr_(3))0.08]devices,respectively.展开更多
Hydrogenated amorphous silicon-carbon (a-SiC:H) films were deposited by plasma enhanced chemical vapor deposition (PECVD) with a fixed methane to silane ratio ([CH4]/[SiH4]) of 1.2 and a wide range of hydrogen dilutio...Hydrogenated amorphous silicon-carbon (a-SiC:H) films were deposited by plasma enhanced chemical vapor deposition (PECVD) with a fixed methane to silane ratio ([CH4]/[SiH4]) of 1.2 and a wide range of hydrogen dilution (RH=[H2]/[SiH4 + CH4]) values of 12, 22, 33, 102 and 135. The impacts of RH on the structural and optical properties of the films were investigated by using UV-VIS transmission, Fourier transform infrared (FTIR) absorption, Raman scattering and photoluminescence (PL) measur- ements. The effects of high temperature annealing on the films were also probed. It is found that with increasing hydrogen dilution, the optical band gap increases, and the PL peak blueshifts from ~1.43 to 1.62 Ev. In annealed state, the room temperature PL peak for the low RH samples disappears, while the PL peak for the high RH samples appears at ~2.08 Ev, which is attributed to nanocrystalline Si particles confined by Si-C and Si-O bonds.展开更多
Limited by single function,it is difficult for the traditional stirred vessels to meet the requirements of mixing system in biomass wastewater treatment processes.The estimation of biomass wastewater stirring reactor ...Limited by single function,it is difficult for the traditional stirred vessels to meet the requirements of mixing system in biomass wastewater treatment processes.The estimation of biomass wastewater stirring reactor performance by computational fluid dynamics(CFD)during multiphase reactions is important,due to the uncertainty in the numerical results.In this study,a novel double-partition stirred vessel with eccentrically located impellers was developed for the special subject.In addition,many simulations were carried out with the wastewater from biomass ethanol production as the medium to ensure the high reactor performance.The fluid flow was simulated and analyzed using the turbulent RNG k-ε model and multi reference frames.A good agreement is found between the simulation results and the confirmatory experiment.Moreover,the weir crest and interconnected pore were specially designed for the establishment of the circulation of fluid to maintain different technological conditions in the two regions.The distributions of radial velocities and tangential velocities were concentrated near the stirring blade.From the velocity profile,it is deduced that the flow pattern in the stirred vessel is insensitive to Reynolds number.Finally,this simulation study could contribute to the improvement and optimization of the structure,as well as the operation of the novel stirred vessel.展开更多
The preparation of green and economical bio-aviation fuel is a priority for the sustainable development industry.In this study,Jatropha oil was used as a raw material to catalyze the conversion of raw material to avia...The preparation of green and economical bio-aviation fuel is a priority for the sustainable development industry.In this study,Jatropha oil was used as a raw material to catalyze the conversion of raw material to aviation kerosene fraction by photothermal coupling under the conditions of light and low temperature.The correlations among conversion rate,target alkane selectivity,composition distribution,and catalyst microstructure were investigated by X-ray diffraction(XRD),high-resolution transmission electron microscopy(HRTEM),nitrogen(N2)adsorption and desorption,X-ray fluorescence(XRF),ammoniatemperature programmed desorption(NH3-TPD),ultraviolet-visible spectrophotometry(UV-Vis),and other characterization.The correlation between conversion and target alkane selectivity and composition distribution and catalyst microstructure was investigated,and different modification methods and different molecular sieve materials were selected.The results showed that the molecular sieves modified with the solid dispersion method could retain the structural stability of titanium dioxide(TiO2)and molecular sieves to a great extent while slightly enhancing the pore capacity and pore size of the catalyst to make it easier to adsorb reactants;the introduction of active metal platinum(Pt)could reduce the forbidden bandwidth of the catalyst,increase the weak acid amount of the catalyst,improve the adsorption capacity of hydrogen(H2),and thus improve the catalytic ability,resulting in a suitable catalyst for this study:P-21.The photothermal catalytic reaction of Jatropha oil using P-21 catalyst obtained 97.21%conversion and 74.99%selectivity of the target alkanes under the optimal process parameters.The results of this study provide effective catalyst parameters for research in the field of clean energy.展开更多
基金financially supported by the Guangdong Major Project of Basic and Applied Basic Research(2019B030302007)the Ministry of Science and Technology(2017YFA0206600,2019YFA0705900)+6 种基金the Natural Science Foundation of China(51973063,91733302 and 51803060)Guangdong Basic and Applied Basic Research Foundation for Distinguished Young Scholar(2021B1515020028)the Fund of Guangdong Provincial Key Laboratory of Luminescence from Molecular Aggregates(South China University of Technology)(2019B030301003)the Science and Technology Program of Guangzhou,China(201904010147)the funding by State Key Lab of Luminescent Materials and Devices,South China University of Technologythe Fellowship of China Postdoctoral Science Foundation(2020M682703)the National Natural Science Foundation of China(52003090)。
文摘As one of the core parts of two-terminal(2 T) monolithic tandem photovoltaics, the interconnecting layers(ICLs) play a critical role in modulating the carrier transport and recombination between the sub-cells,and thus influencing the tandem device performance. Here, for the first time, the relationship between ICLs architecture and 2 T monolithic perovskite/organic tandem device performance has been studied by investigating the change of ICLs composition layer thickness on the ICLs optical and electrical properties, sub-cells EQE properties, and tandem device J-V properties. It is revealed that the ability of ICLs on modulating the sub-cells carrier balance properties is strongly associated with its composited layers thickness, and the tandem device carrier balance properties can be reflected by the relative EQE intensity between the sub-cells. Finally, with a deep understanding of the mechanisms, rational design of ICLs can be made to benefit the tandem device development. Based on the optimized ICL a high PCE of 20.03% is achieved.
基金financially supported by the National Natural Scientific Foundation of China(Grant No.32160254)Natural Scientific Foundation of China(Grant No.31760118)+1 种基金Yunnan Ten Thousand Talents Plan Young&Elite Talents Project(YNWR-QNRC-2019-047)Yunnan Provincial Middle-Young Academic and Technical Leader candidate(2019HB013).
文摘Physiological adaptation of tree shrews(Tupaia belangeri)to changing environmental temperature has been re-ported in detail.However,the T.belangeri origin(mainland or island),population history,and adaptation to histor-ical climate change remain largely unknown or controversial.Here,for thefirst time,we sequenced the simplified genome of 134 T.belangeri individuals from 12 populations in China and further resequenced one individual from each population.Using population genomic approaches,wefirst observed considerable genetic variation in T.be-langeri.Moreover,T.belangeri populations formed obvious genetic structure and reflected different demographic histories;they generally exhibited high genetic diversity,although the isolated populations had relatively low ge-netic diversity.The results presented in this study indicate that T.b.modesta and T.b.tonquinia were separated recently and with a similar population dynamics.Second,physical barriers rather than distance were the driving factors of divergence,and environmental heterogeneity may play an important role in genetic differentiation in T.belangeri.Moreover,our analyses highlight the role of historical global climates in the T.belangeri population dynamics and indicate that the decrease of the T.belangeri population size may be due to the low temperature.Finally,we identified the olfaction-associated adaptive genes between different altitude populations and found that olfactory-related genes of high-altitude populations were selectively eliminated.Our study provides demographic history knowledge of T.belangeri;their adaption history offers new insights into their evolution and adaptation,and provides valuable baseline information for conservation measures.
基金The work was financially supported by the Guangdong Major Project of Basic and Applied Basic Research(No.2019B030302007)the Ministry of Science and Technology(Nos.2017YFA0206600,2019YFA 0705900)+3 种基金the Natural Science Foundation of China(Nos.51973063,91733302 and 51803060)the Science and Technology Program of Guangdong Province,China(No.2018A030313045)the Science and Technology Program of Guangzhou,China(No.201904010147).Yue‐Min Xie acknowledged the funding by State Key Lab of Luminescent Materials and Devices,South China Uni-versity of Technology,the Fellowship of China Post-doctoral Science Foundation(No.2020M682703)the National Natural Science Foundation of China(No.52003090).
文摘Polymer hole-transport layers(HTLs)are critical components of inverted perovskite solar cells(IPVSCs).Triphenylamine derivatives PTAA(poly[bis(4-phenyl)(2,4,6-trimethylphenyl)amine])and Poly-TPD(poly[N,N′-bis(4-butylphenyl)-N,N′-bis(phenyl)benzidine])have been widely adopted as hole-transport materials due to their perovskite passivation effects and suitable energy levels.However,the passivation mechanism(i.e.,the functional group responsible for perovskite passivation)of triphenylamine derivative polymers remains unclear,hindering the development and application of this polymer type.Here,we develop a novel Poly-TPD derivative,S-Poly-TPD,by replacing the n-butyl functional group of Poly-TPD with an isobutyl group to explore the influence of alkyl groups on HTL performance and top-deposited perovskite properties.Compared with Poly-TPD,the increased CH_(3)-terminal unit density and the decreased spatial distance between the-CH-CH_(3) and-CH_(2)-CH_(3) units and the benzene ring in S-Poly-TPD not only enhanced the hole-transport ability but also improved the perovskite passivation effect,revealing for the first time the role of the alkyl groups in perovskite passivation.As a result,the S-Poly-TPD-based IPVSCs demonstrated high power-conversion efficiencies of 15.1% and 21.3% in wide-bandgap[MAPbI_(2)Br(SCN)0.12]and normal-bandgap[(FAPbI_(3))0.92(MAPbBr_(3))0.08]devices,respectively.
文摘Hydrogenated amorphous silicon-carbon (a-SiC:H) films were deposited by plasma enhanced chemical vapor deposition (PECVD) with a fixed methane to silane ratio ([CH4]/[SiH4]) of 1.2 and a wide range of hydrogen dilution (RH=[H2]/[SiH4 + CH4]) values of 12, 22, 33, 102 and 135. The impacts of RH on the structural and optical properties of the films were investigated by using UV-VIS transmission, Fourier transform infrared (FTIR) absorption, Raman scattering and photoluminescence (PL) measur- ements. The effects of high temperature annealing on the films were also probed. It is found that with increasing hydrogen dilution, the optical band gap increases, and the PL peak blueshifts from ~1.43 to 1.62 Ev. In annealed state, the room temperature PL peak for the low RH samples disappears, while the PL peak for the high RH samples appears at ~2.08 Ev, which is attributed to nanocrystalline Si particles confined by Si-C and Si-O bonds.
基金supported by the National Natural Science Foundation of China(Grant No.21868014)Low-carbon Development Guidance Project of Yunnan Province in 2021(No.135)+5 种基金Key Sci-Tech Project of China Tobacco Yunnan Industrial Co.,Ltd.,(Grant No.2022GY03)Key Project of Yunnan Fundamental Research Program(Grant No.2019FA004)Yunnan Academician and Expert Workstation(Grant No.202205 AF150024)Kunming International Sci-Tech Cooperation Base,China(Grant No.GHJD-2020026)Yunnan Sci-Tech Talents and Platform Program(Grant No.202105AC160058)Scientific research project of Yunnan Environmental Science Society,China(No.XHKYKT006).
文摘Limited by single function,it is difficult for the traditional stirred vessels to meet the requirements of mixing system in biomass wastewater treatment processes.The estimation of biomass wastewater stirring reactor performance by computational fluid dynamics(CFD)during multiphase reactions is important,due to the uncertainty in the numerical results.In this study,a novel double-partition stirred vessel with eccentrically located impellers was developed for the special subject.In addition,many simulations were carried out with the wastewater from biomass ethanol production as the medium to ensure the high reactor performance.The fluid flow was simulated and analyzed using the turbulent RNG k-ε model and multi reference frames.A good agreement is found between the simulation results and the confirmatory experiment.Moreover,the weir crest and interconnected pore were specially designed for the establishment of the circulation of fluid to maintain different technological conditions in the two regions.The distributions of radial velocities and tangential velocities were concentrated near the stirring blade.From the velocity profile,it is deduced that the flow pattern in the stirred vessel is insensitive to Reynolds number.Finally,this simulation study could contribute to the improvement and optimization of the structure,as well as the operation of the novel stirred vessel.
基金supported by the National Natural Science Foundation of China(Grant No.21868014)a Key Project of the Yunnan Fundamental Research Program(Study on Design of Novel Catalyst and Catalytic Process for Preparation of Bioaviation Kerosene from Vegetable Oils Based on Photo-thermal Catalytic Technology),2021 Low-carbon Development Guide Project of Yunnan Province,China(No.135),Key S&T Project of China Tobacco Yunnan Industrial Co.,Ltd.,(Grant No.2022GY03)+4 种基金Yunnan Academician and Expert Workstation(Grant No.202205AF150024)Yunnan International S&T Cooperation Program,China(Grant No.202003AF140001)Yunnan S&T Talents and Platform Program(Grant No.202105AC160058)Kunming International S&T Cooperation Base,China(Grant No.GHJD-2020026)Scientific research project of Yunnan Environmental Science Society,China(Grant No.XHKYKT006).
文摘The preparation of green and economical bio-aviation fuel is a priority for the sustainable development industry.In this study,Jatropha oil was used as a raw material to catalyze the conversion of raw material to aviation kerosene fraction by photothermal coupling under the conditions of light and low temperature.The correlations among conversion rate,target alkane selectivity,composition distribution,and catalyst microstructure were investigated by X-ray diffraction(XRD),high-resolution transmission electron microscopy(HRTEM),nitrogen(N2)adsorption and desorption,X-ray fluorescence(XRF),ammoniatemperature programmed desorption(NH3-TPD),ultraviolet-visible spectrophotometry(UV-Vis),and other characterization.The correlation between conversion and target alkane selectivity and composition distribution and catalyst microstructure was investigated,and different modification methods and different molecular sieve materials were selected.The results showed that the molecular sieves modified with the solid dispersion method could retain the structural stability of titanium dioxide(TiO2)and molecular sieves to a great extent while slightly enhancing the pore capacity and pore size of the catalyst to make it easier to adsorb reactants;the introduction of active metal platinum(Pt)could reduce the forbidden bandwidth of the catalyst,increase the weak acid amount of the catalyst,improve the adsorption capacity of hydrogen(H2),and thus improve the catalytic ability,resulting in a suitable catalyst for this study:P-21.The photothermal catalytic reaction of Jatropha oil using P-21 catalyst obtained 97.21%conversion and 74.99%selectivity of the target alkanes under the optimal process parameters.The results of this study provide effective catalyst parameters for research in the field of clean energy.
