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Effect of drying methods on perovskite films and solar cells
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作者 Ling Liu Chuantian Zuo +3 位作者 guang-xing liang Hua Dong Jingjing Chang Liming Ding 《Journal of Semiconductors》 EI CAS CSCD 2024年第1期1-5,共5页
The high efficiency,solution processibility,and flexibility of perovskite solar cells make them promising candidates for the photovoltaic industry[1−8].The deposition method is one of the most critical factors that af... The high efficiency,solution processibility,and flexibility of perovskite solar cells make them promising candidates for the photovoltaic industry[1−8].The deposition method is one of the most critical factors that affect the performance of perovskite films.Various deposition methods have been developed to make perovskite films,including spin-coating,slotdie coating. 展开更多
关键词 PEROVSKITE FILMS CRITICAL
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Realizing high thermoelectric performance via selective resonant doping in oxyselenide BiCuSeO 被引量:2
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作者 Yue-Xing Chen Wenning Qin +8 位作者 Adil Mansoor Adeel Abbas Fu Li guang-xing liang Ping Fan Muhammad Usman Muzaffar Bushra Jabar Zhen-hua Ge Zhuang-hao Zheng 《Nano Research》 SCIE EI CSCD 2023年第1期1679-1687,共9页
Tuning the charge carrier concentration is imperative to optimize the thermoelectric(TE)performance of a material.For BiCuSeO based oxyselenides,doping efforts have been limited to optimizing the carrier concentration... Tuning the charge carrier concentration is imperative to optimize the thermoelectric(TE)performance of a material.For BiCuSeO based oxyselenides,doping efforts have been limited to optimizing the carrier concentration.In the present work,dual-doping of In and Pb at Bi site is introduced for p-type BiCuSeO to realize the electric transport channels with intricate band characteristics to improve the power factor(PF).Herein,the impurity resonant state is realized via doping of resonant dopant In over Pb,where Pb comes forward to optimize the Fermi energy in the dual-doped BiCuSeO system to divulge the significance of complex electronic structure.The manifold roles of dual-doping are used to adjust the elevation of the PF due to the significant enhancement in electrical properties.Thus,the combined experimental and theoretical study shows that the In/Pb dual doping at Bi sites gently reduces bandgap,introduces resonant doping states with shifting down the Fermi level into valence band(VB)with a larger density of state,and thus causes to increase the carrier concentration and effective mass(m*),which are favorable to enhance the electronic transport significantly.As a result,both improved ZTmax=0.87(at 873 K)and high ZTave=0.5(at 300–873 K)are realized for InyBi(1−x)−yPbxCuSeO(where x=0.06 and y=0.04)system.The obtained results successfully demonstrate the effectiveness of the selective dual doping with resonant dopant inducing band manipulation and carrier engineering that can unlock new prospects to develop high TE materials. 展开更多
关键词 thermoelectric material BiCuSeO dual-doping power factor figure of merit
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Realizing high thermoelectric performance in n-type Bi_(2)Te_(3)based thin films via post-selenization diffusion 被引量:1
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作者 Yue-Xing Chen Jun-Ze Zhang +5 位作者 Mohammad Nisar Adeel Abbas Fu Li guang-xing liang Ping Fan Zhuang-Hao Zheng 《Journal of Materiomics》 SCIE CSCD 2023年第4期618-625,共8页
Thermoelectric thin film has attracted a lot of attention due to its potential in fabricating micropower generator in chip sensors for internet of things(IoT).However,the undeveloped performance of n-type thermoelectr... Thermoelectric thin film has attracted a lot of attention due to its potential in fabricating micropower generator in chip sensors for internet of things(IoT).However,the undeveloped performance of n-type thermoelectric thin film limits its widely application.In this work,a facile post-selenization diffusion reaction method is employed to introduce Se into Bi_(2)Te_(3)thin films,in order to optimize the carrier transport properties.Experimental and theoretical calculation results indicate that the carrier concentration decreases and density of states increases after Se doping,leading to the enhancement of Seebeck coefficient.Further,adjusting the diffusion reaction temperature can maintain the carrier concentration while increasing the mobility simultaneously,resulting in a high power factor of 1.5 mW/(m·K^(2)),which is eight times higher than that of the pristine Bi_(2)Te_(3)thin films.Subsequently,a thin film device fabricated by the present Se-doped Bi_(2)Te_(3)thin films shows the highest output power of 60.20 nW under the temperature difference of 37 K,indicating its potential for practical use. 展开更多
关键词 THERMOELECTRIC Thin film Magnetron sputtering Bie-Tee-Se
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Enhanced thermoelectric properties of n-type Bi_(2)O_(2)Se by KCl doping
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作者 Zi-long Zhang Tao Wang +6 位作者 Mohammad Nisar Yue-xing Chen Fu Li Shuo Chen guang-xing liang Ping Fan Zhuang-hao Zheng 《Journal of Advanced Ceramics》 SCIE EI CAS CSCD 2023年第9期1767-1776,共10页
Bi_(2)O_(2)Se is considered one of the most promising thermoelectric(TE)materials for combining with p-type BiCuSeO in a TE module given its unique chemical and thermal stability.However,the enhancement of its dimensi... Bi_(2)O_(2)Se is considered one of the most promising thermoelectric(TE)materials for combining with p-type BiCuSeO in a TE module given its unique chemical and thermal stability.However,the enhancement of its dimensionless figure of merit,zT value,remains a challenge because of its low electrical conductivity.Herein,we introduce KCl into Bi_(2)O_(2)Se,synthesized by solid-state reaction and spark plasma sintering method,to improve its TE properties.The synthesized samples show an outstanding enhancement in electrical conductivity,carrier concentration,and power factor after KCl doping.The Bi_(2)O_(2)Se-based sample with a 0.05%KCl doping content possesses a high zT value of~0.58 at 773 K,which is over 50%enhancement compared with the pristine Bi_(2)O_(2)Se sample.We also prove that the K element substitutes the Bi site,and Cl replaces the Se site by X-ray diffraction results and density functional theory calculation,supporting that K can improve the electrical conductivity by the position of Fermi level which is above the conduction band minimum.Experimental and theoretical results indicate the success of co-doping with a small amount of KCl and show a huge potential of this novel method for Bi_(2)O_(2)Se TE performance improvement. 展开更多
关键词 thermoelectric(TE)materials Bi_(2)O_(2)Se KCl co-doping figure of merit(zT)
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Self-powered broadband kesterite photodetector with ultrahigh specific detectivity for weak light applications
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作者 guang-xing liang Chuan-Hao Li +9 位作者 Jun Zhao Yi Fu Zi-Xuan Yu Zhuang-Hao Zheng Zheng-Hua Su Ping Fan Xiang-Hua Zhang Jing-Ting Luo Liming Ding Shuo Chen 《SusMat》 SCIE EI 2023年第5期682-696,共15页
Kesterite Cu_(2)ZnSn(S,Se)_(4)(CZTSSe)is a promising candidate for photodetector(PD)applications thanks to its excellent optoelectronic properties.In this work,a green solution-processed spin coating and selenization-... Kesterite Cu_(2)ZnSn(S,Se)_(4)(CZTSSe)is a promising candidate for photodetector(PD)applications thanks to its excellent optoelectronic properties.In this work,a green solution-processed spin coating and selenization-processed thermodynamic or kinetic growth of high-quality narrow bandgap kesterite CZTSSe thin film is developed.A self-powered CZTSSe/CdS thin-film PD is then successfully fabricated.Under optimization of light absorber and heterojunction interface,especially tailoring the defect and carrier kinetics,it can achieve broadband response from300 to 1300 nm,accompaniedwith a high responsivity of 1.37A/W,specific detectivity(D*)up to 4.0×10^(14)Jones under 5 nW/cm^(2),a linear dynamic range(LDR)of 126 dB,and a maximum Ilight/Idark ratio of 1.3×10^(8)within the LDR,and ultrafast response speed(rise/decay time of 16 ns/85 ns),representing the leading-level performance to date,which is superior to those of commercial andwell-researched photodiodes.Additionally,an imaging system with a 905nm laser is built for weak light response evaluation,and can respond to 718 pW weak light and infrared imaging at a wavelength as low as 5 nW/cm2.It has also been employed for photoplethysmography detection of pulsating signals at both the finger and wrist,presenting obvious arterial blood volume changes,demonstrating great application potential in broadband and weak light photodetection scenarios. 展开更多
关键词 DETECTIVITY KESTERITE PHOTODETECTOR thin film weak light detection
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In-situ growth of high-performance(Ag,Sn)co-doped CoSb_(3)thermoelectric thin films 被引量:1
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作者 Zhuang-Hao Zheng Jun-Yu Niu +8 位作者 Dong-Wei Ao Bushra Jabar Xiao-Lei Shi Xin-Ru Li Fu Li guang-xing liang Yue-Xing Chen Zhi-Gang Chen Ping Fan 《Journal of Materials Science & Technology》 SCIE EI CAS CSCD 2021年第33期178-185,共8页
Owing to the unique features,such as mechanically robust,low-toxic,high stability,and high thermoelectric performance,CoSb_(3)-based skutterudite materials are among art-of-the state thermoelectric candidates.In this ... Owing to the unique features,such as mechanically robust,low-toxic,high stability,and high thermoelectric performance,CoSb_(3)-based skutterudite materials are among art-of-the state thermoelectric candidates.In this work,we develop a facile in-situ method for the growth of well-crystallinity(Ag,Sn)co-doped CoSb_(3)thin films.This preparation method can efficiently control the dopant concentration and distribution in the thin films.Both the density functional theory calculation and the experimental results suggest that Sn and Ag dopants trend to enter the lattice and preferentially fill interstitial sites.Additionally,band structure calculation results suggest that the Fermi level moves into the conduction bands due to co-doping and eventually induces the increased electrical conductivity,which agrees with the optimization of carrier concentration.Moreover,an increase in the density of state after co-doping is responsible for the increased Seebeck coefficient.As a result,the power factors of(Ag,Sn)co-doped CoSb_(3)thin films are greatly enhanced,and the maximum power factor achieves over 0.3 m W m^(-1)K^(-2)at 623 K,which is almost two times than that of the un-doped CoSb_(3)film.Multiple microstructures,including Sb vacancies and Ag/Sn interstitial atoms as point defects,and a high density of lattice distortions coupled with nano-sized Ag-rich grains,lead to all scale phonon scatterings.As a result,a reduced thermal conductivity of~0.28 W m^(-1)K^(-1)and a maximum ZT of~0.52 at 623 K are obtained from(Ag,Sn)co-doped CoSb_(3)thin films.This study indicates our facile in-situ growth can be used to develop high-performance dual doped CoSb_(3)thins. 展开更多
关键词 CoSb_(3)thin films THERMOELECTRIC Magnetron sputtering CO-DOPING
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