Promoting the high penetration of renewable energies like photovoltaic(PV)systems has become an urgent issue for expanding modern power grids and has accomplished several challenges compared to existing distribution g...Promoting the high penetration of renewable energies like photovoltaic(PV)systems has become an urgent issue for expanding modern power grids and has accomplished several challenges compared to existing distribution grids.This study measures the effectiveness of the Puma optimizer(PO)algorithm in parameter estimation of PSC(perovskite solar cells)dynamic models with hysteresis consideration considering the electric field effects on operation.The models used in this study will incorporate hysteresis effects to capture the time-dependent behavior of PSCs accurately.The PO optimizes the proposed modified triple diode model(TDM)with a variable voltage capacitor and resistances(VVCARs)considering the hysteresis behavior.The suggested PO algorithm contrasts with other wellknown optimizers from the literature to demonstrate its superiority.The results emphasize that the PO realizes a lower RMSE(Root mean square errors),which proves its capability and efficacy in parameter extraction for the models.The statistical results emphasize the efficiency and supremacy of the proposed PO compared to the other well-known competing optimizers.The convergence rates show good,fast,and stable convergence rates with lower RMSE via PO compared to the other five competitive optimizers.Moreover,the lowermean realized via the PO optimizer is illustrated by the box plot for all optimizers.展开更多
Introducing a combination of transcription factors such as Oct4,Sox2,Klf4 and c-Myc(OSKM)enables reprogramming which converts somatic cells into induced pluripotent stem cells(i PSCs)(Takahashi and Yamanaka,2006...Introducing a combination of transcription factors such as Oct4,Sox2,Klf4 and c-Myc(OSKM)enables reprogramming which converts somatic cells into induced pluripotent stem cells(i PSCs)(Takahashi and Yamanaka,2006).i PSCs play an important role in clinical and regenerative medicine because they can be utilized to model a specific disease or differentiate into functional cells for transplantation.Enhancing the efficiency of induction and improving the qualities of iPSCs are constant themes in this field.展开更多
In recent years, the research advancements have high-lighted the critical role of the A-site cation in determining the optoelectronic and physicochemical properties of organicinorganic lead halide perovskites. Mixed-c...In recent years, the research advancements have high-lighted the critical role of the A-site cation in determining the optoelectronic and physicochemical properties of organicinorganic lead halide perovskites. Mixed-cation perovskites(MCPs) have been extensively used as absorber thin films in perovskite solar cells(PSCs), achieving high power conversion efficiencies(PCE) over 26%^([1, 2]).展开更多
The double perovskite Cs_(2)SnI_(6)has notable optical and electrical characteristics,rendering it a highly prospective candidate for deployment as the absorber layer in perovskite solar cells(PSCs).We simulated the p...The double perovskite Cs_(2)SnI_(6)has notable optical and electrical characteristics,rendering it a highly prospective candidate for deployment as the absorber layer in perovskite solar cells(PSCs).We simulated the performance of PSCs using lead-free Cs_(2)SnI_(6)double perovskite absorber layer and graphene derivatives,namely graphene oxide(GO)and reduced graphene oxide(rGO),as hole transport layers(HTLs).Our findings show that r GO offers an excellent hole extraction property with minimal interfacial recombination compared to GO.展开更多
太阳能是一种清洁可再生能源,太阳能电池基于“光生伏特效应”能够将光能转换为电能,开发高效且稳定的太阳能电池是缓解能源危机、改善环境污染问题的重要举措。钙钛矿太阳能电池(perovskite solar cells, PSCs)具备带隙可调节、载流子...太阳能是一种清洁可再生能源,太阳能电池基于“光生伏特效应”能够将光能转换为电能,开发高效且稳定的太阳能电池是缓解能源危机、改善环境污染问题的重要举措。钙钛矿太阳能电池(perovskite solar cells, PSCs)具备带隙可调节、载流子寿命长、激子结合能小、吸光系数大以及缺陷容忍度高等特点。但PSCs中的重金属元素铅对人类健康和生态环境造成了危害,限制了铅基PSCs的进一步应用。本文主要介绍使用化学方法减少铅泄露,系统总结了铅隔离材料在PSCs封装层和功能层中的应用,并重点阐述了本课题组在防止铅泄露方面的研究工作,为有兴趣促进PSCs开发和应用的研究人员提供参考。展开更多
The 2D/3D heterojunction perovskites have garnered increasing attention due to their exceptional moisture and thermal stability.However,few works have paid attention to the influence of the subsequent change process o...The 2D/3D heterojunction perovskites have garnered increasing attention due to their exceptional moisture and thermal stability.However,few works have paid attention to the influence of the subsequent change process of 2D/3D heterojunction PSC on the stability of PSCs.Moreover,the evolution of the interface and carrier dynamic behavior of the 2D/3D perovskite films with long-term operation has not been systematically developed befo re.In this work,the effects of 2D/3 D heterojunction evolution on the interface of perovskite films and different carrier dynamics during 2D/3D evolution are systematically analyzed for the first time.The decomposition of 2D/3D heterojunction in the perovskite film will have a certain impact on the surface and carrier dynamics behavior of perovskite.During the evolution of 2D/3D heterojunction,PbI_(2)crystals will appear,which will improve the interfacial energy level matching between the electron transport layer and perovskite film.With a long evolution time,some holes will appear on the surface of perovskite film.The open circuit voltage(V_(OC))of PSCs increased from 1.14 to1.18 V and the PCE increased to 23.21%after 300 h storage in the nitrogen atmosphere,and maintained 89%initial performance for with 3000 h stability test in N_(2)box.This discovery has a significant role in promoting the development of inverted heterojunction PSCs and constructing the revolution mechanism of charge carrier dynamic.展开更多
The rapid advancement of metal halide perovskites can be attributed to their exceptional optoelectronic properties and facile solution processing technique.Noteworthy strides have been achieved in the realm of perovsk...The rapid advancement of metal halide perovskites can be attributed to their exceptional optoelectronic properties and facile solution processing technique.Noteworthy strides have been achieved in the realm of perovskite solar cells(PSCs),with a certified power conversion efficiency(PCE)escalating to 26.7%over the course of a decade,positioning them as promising contenders for next-generation photovoltaic technologies[1].However,the formation of crystal defects,including anion/cation vacancies,Pb–I antisite defects,and uncoordinated Pb^(2+),along the surface and grain boundaries(GBs)of perovskite layers during the solution processing stage poses a significant challenge,compromising the photoelectric performance and stability of PSCs.展开更多
Perovskite solar cells(PSCs),which utilize a hybrid organic–inorganic lead halide perovskite as the light-absorbing semiconductor,have emerged as a highly promising photovoltaic technology over the past decade[1−5].
Organic-inorganic hybrid metal halide perovskite solar cells(PSCs)have attracted much attention due to their high photoelectric conversion efficiency(PCE)and low cost.The certificated PCE of small active area(below 0....Organic-inorganic hybrid metal halide perovskite solar cells(PSCs)have attracted much attention due to their high photoelectric conversion efficiency(PCE)and low cost.The certificated PCE of small active area(below 0.1 cm^(2))device has reached 26.7%[1].However,when considering the scaled-up commercialization of PSCs,an obvious efficiency drop exists for the translation to large-area perovskite submodules(PSMs)with areas more than 200 cm^(2),thus limiting the practical commercialization[2].The major PCE gap between small area cells and large area modules arises the drop of open-circuit voltage(VOC)and fill factor(FF).Formamidinium lead iodide(FAPbI_(3))is now the mostly widely used and highly efficient perovskite composition.However,the photo-active black α-FAPbI_(3) phase will spontaneously transform into photo-inactive yellowδ-FAPbI_(3) phase at room temperature[3].展开更多
Weather variations present a major challenge for photovoltaic(PV)systems in obtaining the optimal output during maximum power point tracking(MPPT),particularly under partial shadowing conditions(PSCs).Bypass diodes ar...Weather variations present a major challenge for photovoltaic(PV)systems in obtaining the optimal output during maximum power point tracking(MPPT),particularly under partial shadowing conditions(PSCs).Bypass diodes are typically installed across the series-connected PV modules to avoid the occurrence of the hotspots.Consequently,the power curve exhibits several local peaks(LPs)and one global peak(GP).The conventional MPPTs typically become stuck in one of these LPs,presenting a significant decrease in both the power output and overall efficiency of the PV system.A major constraint of several optimization techniques is their inability to differ-entiate between the irradiancefluctuations and load alterations.In this study,we analyze seven different methods for MPPT.These include:the team game algorithm(TGA),social ki driver algorithm(SSD),differential evolution(DE),grey wolf optimization(GWO),particle swarm optimization(PSO),cuckoo search(CS),and the perturb and observe(P&O)method.These algorithms were applied in practice,and their effectiveness was experimentally demonstrated under different amounts of solar irradiation while maintain-ing a constant temperature.The results indicate that the CS and TGA approaches can accurately track the MPPT across various posi-tions on the P-V curve.These methods achieve average efficiencies of 99.59%and 99.54%,respectively.Additionally,the TGA achieves superior performance with the shortest average tracking time of 0.92 s,outperforming the existing MPPT algorithms.展开更多
In comparison with inorganic solar cells, polymer solar cells (PSCs) possess the advantages of light weight and po- tential low-cost production technology such as roll-to-roll printing production. And the power conv...In comparison with inorganic solar cells, polymer solar cells (PSCs) possess the advantages of light weight and po- tential low-cost production technology such as roll-to-roll printing production. And the power conversion efficiency (PCE) of the PSCs reached ca. 10% recently. However, the high PCE is limited to the PSCs with the low bandgap pol- ymer PBDTTTs as donor and PCTOBM as acceptor, and the optimized active layer thickness of the high efficiency PSCs is usually less than 100 nm. The dominant acceptor of PCTOBM places serious limitation on the development of the polymer donor materials to match with PC70BM, and the thin active layer makes large area fabrication of the PSCs very difficult.展开更多
聚合物太阳能电池(PSCS)的转换效率虽然可能永远无法和主流市场上的硅晶、无机太阳能电池相提并论,但一份新发布的论文强调,这类有机电池可在远距离供电方面大放异彩。最近俄亥俄州立大学(Ohio State University)电机工程学家Paul...聚合物太阳能电池(PSCS)的转换效率虽然可能永远无法和主流市场上的硅晶、无机太阳能电池相提并论,但一份新发布的论文强调,这类有机电池可在远距离供电方面大放异彩。最近俄亥俄州立大学(Ohio State University)电机工程学家Paul Berger、展开更多
In this paper,we theoretically study the Lamb wave in a multilayered piezoelectric semiconductor(PSC)plate,where each layer is an n-type PSC with the symmetry of transverse isotropy.Based on the extended Stroh formali...In this paper,we theoretically study the Lamb wave in a multilayered piezoelectric semiconductor(PSC)plate,where each layer is an n-type PSC with the symmetry of transverse isotropy.Based on the extended Stroh formalism and dual-variable and position(DVP)method,the general solution of the coupled fields for the Lamb wave is derived,and then the dispersion equation is obtained by the application of the boundary conditions.First,the influence of semiconducting properties on the dispersion behavior of the Lamb wave in a single-layer PSC plate is analyzed.Then,the propagation characteristics of the Lamb wave in a sandwich plate are investigated in detail.The numerical results show that the wave speed and attenuation depend on the stacking sequence,layer thickness,and initial carrier density,the Lamb wave can propagate without a cut-off frequency in both the homogeneous and multilayer PSC plates due to the semiconducting properties,and the Lamb wave without attenuation can be achieved by carefully selecting the semiconductor property in the upper and lower layers.These new features could be very helpful as theoretical guidance for the design and performance optimization of PSC devices.展开更多
基金supported via funding from Prince Sattam Bin Abdulaziz University project number(PSAU/2025/R/1446).
文摘Promoting the high penetration of renewable energies like photovoltaic(PV)systems has become an urgent issue for expanding modern power grids and has accomplished several challenges compared to existing distribution grids.This study measures the effectiveness of the Puma optimizer(PO)algorithm in parameter estimation of PSC(perovskite solar cells)dynamic models with hysteresis consideration considering the electric field effects on operation.The models used in this study will incorporate hysteresis effects to capture the time-dependent behavior of PSCs accurately.The PO optimizes the proposed modified triple diode model(TDM)with a variable voltage capacitor and resistances(VVCARs)considering the hysteresis behavior.The suggested PO algorithm contrasts with other wellknown optimizers from the literature to demonstrate its superiority.The results emphasize that the PO realizes a lower RMSE(Root mean square errors),which proves its capability and efficacy in parameter extraction for the models.The statistical results emphasize the efficiency and supremacy of the proposed PO compared to the other well-known competing optimizers.The convergence rates show good,fast,and stable convergence rates with lower RMSE via PO compared to the other five competitive optimizers.Moreover,the lowermean realized via the PO optimizer is illustrated by the box plot for all optimizers.
基金supported by the Strategic Priority Research Program of Chinese Academy of Sciences (No. XDA01020102)the grant from the Natural Science Foundation of China (No. 81225004)
文摘Introducing a combination of transcription factors such as Oct4,Sox2,Klf4 and c-Myc(OSKM)enables reprogramming which converts somatic cells into induced pluripotent stem cells(i PSCs)(Takahashi and Yamanaka,2006).i PSCs play an important role in clinical and regenerative medicine because they can be utilized to model a specific disease or differentiate into functional cells for transplantation.Enhancing the efficiency of induction and improving the qualities of iPSCs are constant themes in this field.
基金financially supported by the National Natural Science Foundation of China (52462032, 62274018, 52462031)Natural Science Foundation of Yunnan Province (202501AT070353, 202101BE070001-049)+2 种基金the Xinjiang Construction Corps Key Areas of Science and Technology Research Project (2023AB029)the Tianchi Talent Program of Xinjiang Uygur Autonomous Region (2024, Jiangzhao Chen)the Key Project of Chongqing Overseas Students Returning to China Entrepreneurship and Innovation Support Plan (cx2023006)。
文摘In recent years, the research advancements have high-lighted the critical role of the A-site cation in determining the optoelectronic and physicochemical properties of organicinorganic lead halide perovskites. Mixed-cation perovskites(MCPs) have been extensively used as absorber thin films in perovskite solar cells(PSCs), achieving high power conversion efficiencies(PCE) over 26%^([1, 2]).
文摘The double perovskite Cs_(2)SnI_(6)has notable optical and electrical characteristics,rendering it a highly prospective candidate for deployment as the absorber layer in perovskite solar cells(PSCs).We simulated the performance of PSCs using lead-free Cs_(2)SnI_(6)double perovskite absorber layer and graphene derivatives,namely graphene oxide(GO)and reduced graphene oxide(rGO),as hole transport layers(HTLs).Our findings show that r GO offers an excellent hole extraction property with minimal interfacial recombination compared to GO.
文摘太阳能是一种清洁可再生能源,太阳能电池基于“光生伏特效应”能够将光能转换为电能,开发高效且稳定的太阳能电池是缓解能源危机、改善环境污染问题的重要举措。钙钛矿太阳能电池(perovskite solar cells, PSCs)具备带隙可调节、载流子寿命长、激子结合能小、吸光系数大以及缺陷容忍度高等特点。但PSCs中的重金属元素铅对人类健康和生态环境造成了危害,限制了铅基PSCs的进一步应用。本文主要介绍使用化学方法减少铅泄露,系统总结了铅隔离材料在PSCs封装层和功能层中的应用,并重点阐述了本课题组在防止铅泄露方面的研究工作,为有兴趣促进PSCs开发和应用的研究人员提供参考。
基金financial support provided by the Sichuan Science and Technology Program(No.2022NSFSC0226)Sichuan Science and Technology Program(No.2023ZYD0163)+6 种基金the Production-Education Integration Demonstration Project of Sichuan Provincethe Photovoltaic Industry Production-Education Integration Comprehensive Demonstration Base of Sichuan Province(Sichuan Financial Education[2022]No.106)China Tianfu Yongxing Laboratory Science and Technology Key Project(2023KJGG15)National Key Research and Development Program of China(2022YFB3803300)Beijing Natural Science Foundation(IS23037)the Department for Energy Security and Net Zero(project ID:NEXTCCUS)the ACT program(Accelerating CCS Technologies,Horizon2020 project NO.691712)。
文摘The 2D/3D heterojunction perovskites have garnered increasing attention due to their exceptional moisture and thermal stability.However,few works have paid attention to the influence of the subsequent change process of 2D/3D heterojunction PSC on the stability of PSCs.Moreover,the evolution of the interface and carrier dynamic behavior of the 2D/3D perovskite films with long-term operation has not been systematically developed befo re.In this work,the effects of 2D/3 D heterojunction evolution on the interface of perovskite films and different carrier dynamics during 2D/3D evolution are systematically analyzed for the first time.The decomposition of 2D/3D heterojunction in the perovskite film will have a certain impact on the surface and carrier dynamics behavior of perovskite.During the evolution of 2D/3D heterojunction,PbI_(2)crystals will appear,which will improve the interfacial energy level matching between the electron transport layer and perovskite film.With a long evolution time,some holes will appear on the surface of perovskite film.The open circuit voltage(V_(OC))of PSCs increased from 1.14 to1.18 V and the PCE increased to 23.21%after 300 h storage in the nitrogen atmosphere,and maintained 89%initial performance for with 3000 h stability test in N_(2)box.This discovery has a significant role in promoting the development of inverted heterojunction PSCs and constructing the revolution mechanism of charge carrier dynamic.
基金supported by the Science,Technology,Innovation Commission of Shenzhen Municipality(GJHZ20220913143204008)Postdoctoral Research Project Funding in Shaanxi Province.
文摘The rapid advancement of metal halide perovskites can be attributed to their exceptional optoelectronic properties and facile solution processing technique.Noteworthy strides have been achieved in the realm of perovskite solar cells(PSCs),with a certified power conversion efficiency(PCE)escalating to 26.7%over the course of a decade,positioning them as promising contenders for next-generation photovoltaic technologies[1].However,the formation of crystal defects,including anion/cation vacancies,Pb–I antisite defects,and uncoordinated Pb^(2+),along the surface and grain boundaries(GBs)of perovskite layers during the solution processing stage poses a significant challenge,compromising the photoelectric performance and stability of PSCs.
文摘Perovskite solar cells(PSCs),which utilize a hybrid organic–inorganic lead halide perovskite as the light-absorbing semiconductor,have emerged as a highly promising photovoltaic technology over the past decade[1−5].
基金support from open fund of Fujian Provincial Key Laboratory of Functional Materials and Applications(Xiamen University of Technology,fma2024003)the National Key R&D Program of China(No.2021YFB3500400)the National Natural Science Foundation of China(Nos.52073286 and 22275185).
文摘Organic-inorganic hybrid metal halide perovskite solar cells(PSCs)have attracted much attention due to their high photoelectric conversion efficiency(PCE)and low cost.The certificated PCE of small active area(below 0.1 cm^(2))device has reached 26.7%[1].However,when considering the scaled-up commercialization of PSCs,an obvious efficiency drop exists for the translation to large-area perovskite submodules(PSMs)with areas more than 200 cm^(2),thus limiting the practical commercialization[2].The major PCE gap between small area cells and large area modules arises the drop of open-circuit voltage(VOC)and fill factor(FF).Formamidinium lead iodide(FAPbI_(3))is now the mostly widely used and highly efficient perovskite composition.However,the photo-active black α-FAPbI_(3) phase will spontaneously transform into photo-inactive yellowδ-FAPbI_(3) phase at room temperature[3].
基金supported by the Ministry of Higher Education(MOHE)of Malaysia through a research grant FRGS/1/2023/TK08/UNITEN/02/9.
文摘Weather variations present a major challenge for photovoltaic(PV)systems in obtaining the optimal output during maximum power point tracking(MPPT),particularly under partial shadowing conditions(PSCs).Bypass diodes are typically installed across the series-connected PV modules to avoid the occurrence of the hotspots.Consequently,the power curve exhibits several local peaks(LPs)and one global peak(GP).The conventional MPPTs typically become stuck in one of these LPs,presenting a significant decrease in both the power output and overall efficiency of the PV system.A major constraint of several optimization techniques is their inability to differ-entiate between the irradiancefluctuations and load alterations.In this study,we analyze seven different methods for MPPT.These include:the team game algorithm(TGA),social ki driver algorithm(SSD),differential evolution(DE),grey wolf optimization(GWO),particle swarm optimization(PSO),cuckoo search(CS),and the perturb and observe(P&O)method.These algorithms were applied in practice,and their effectiveness was experimentally demonstrated under different amounts of solar irradiation while maintain-ing a constant temperature.The results indicate that the CS and TGA approaches can accurately track the MPPT across various posi-tions on the P-V curve.These methods achieve average efficiencies of 99.59%and 99.54%,respectively.Additionally,the TGA achieves superior performance with the shortest average tracking time of 0.92 s,outperforming the existing MPPT algorithms.
文摘In comparison with inorganic solar cells, polymer solar cells (PSCs) possess the advantages of light weight and po- tential low-cost production technology such as roll-to-roll printing production. And the power conversion efficiency (PCE) of the PSCs reached ca. 10% recently. However, the high PCE is limited to the PSCs with the low bandgap pol- ymer PBDTTTs as donor and PCTOBM as acceptor, and the optimized active layer thickness of the high efficiency PSCs is usually less than 100 nm. The dominant acceptor of PCTOBM places serious limitation on the development of the polymer donor materials to match with PC70BM, and the thin active layer makes large area fabrication of the PSCs very difficult.
基金Project supported by the National Natural Science Foundation of China(Nos.U21A20430 and 12302202)the Hebei Natural Science Foundation of China(No.A2023210040)+1 种基金the Science and Technology Project of Hebei Education Department of China(No.BJ2025005)the Hebei Provincial Department of Human Resources and Social Security of China(No.C20220324)。
文摘In this paper,we theoretically study the Lamb wave in a multilayered piezoelectric semiconductor(PSC)plate,where each layer is an n-type PSC with the symmetry of transverse isotropy.Based on the extended Stroh formalism and dual-variable and position(DVP)method,the general solution of the coupled fields for the Lamb wave is derived,and then the dispersion equation is obtained by the application of the boundary conditions.First,the influence of semiconducting properties on the dispersion behavior of the Lamb wave in a single-layer PSC plate is analyzed.Then,the propagation characteristics of the Lamb wave in a sandwich plate are investigated in detail.The numerical results show that the wave speed and attenuation depend on the stacking sequence,layer thickness,and initial carrier density,the Lamb wave can propagate without a cut-off frequency in both the homogeneous and multilayer PSC plates due to the semiconducting properties,and the Lamb wave without attenuation can be achieved by carefully selecting the semiconductor property in the upper and lower layers.These new features could be very helpful as theoretical guidance for the design and performance optimization of PSC devices.
