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14.46% Efficiency small molecule organic photovoltaics enabled by the well trade-off between phase separation and photon harvesting 被引量:2
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作者 Chunyu Xu Haiyan Chen +6 位作者 Zijin Zhao Jinhua Gao Xiaoling Ma Shirong Lu Xiaoli Zhang Zeyun Xiao Fujun Zhang 《Journal of Energy Chemistry》 SCIE EI CAS CSCD 2021年第6期610-617,I0015,共9页
Small molecule organic photovoltaics(SMPVs) were prepared by utilizing liquid crystalline donor material BTR-Cl and two similar optical bandgap non-fullerene acceptor materials BTP-BO-4 F and Y6.The BTPBO-4 F and Y6 h... Small molecule organic photovoltaics(SMPVs) were prepared by utilizing liquid crystalline donor material BTR-Cl and two similar optical bandgap non-fullerene acceptor materials BTP-BO-4 F and Y6.The BTPBO-4 F and Y6 have the similar optical bandgap and different absorption coefficients.The corresponding binary SMPVs exhibit different short circuit current density(/sc)(20.38 vs.23.24 mA cm^(-2)),and fill factor(FF)(70.77% vs.67.21%).A 14.46% power conversion efficiency(PCE) is acquired in ternary SMPVs with 30 wt% Y6,companied with a JSC of 24.17 mA cm^(-2) a FF of 68.78% and an open circuit voltage(Voc) of 0.87 V.The improvement on PCE of ternary SMPVs should originate from the well trade-off between phase separation and photon harvesting of ternary active layers by incorporating 30 wt% Y6 in acceptors.This work may deliver insight onto the improved performance of SMPVs by superposing the superiorities of binary SMPVs with similar optical bandgap acceptors into one ternary cell. 展开更多
关键词 small molecule organic photovoltaics Ternary strategy Non-fullerene acceptor
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Kinetic and thermodynamic synergy of organic small molecular additives enables constructed stable zinc anode 被引量:1
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作者 Yang Gao Mingshan Wang +10 位作者 Hao Wang Xinpeng Li Yuanwei Chu Zhicheng Tang Yuanlong Feng Jiaqi Wang Yong Pan Zhiyuan Ma Zhenliang Yang Dan Zhou Xing Li 《Journal of Energy Chemistry》 SCIE EI CAS CSCD 2023年第9期62-72,共11页
An organic small molecule additive zinc formate is introduced to construct stable Zn metal interphase by electrochemical kinetic control and thermodynamic adjustment.It partially forms a water-formate concomitant dipo... An organic small molecule additive zinc formate is introduced to construct stable Zn metal interphase by electrochemical kinetic control and thermodynamic adjustment.It partially forms a water-formate concomitant dipole layer at the internal Helmholtz electrical double layers(HEDLs) under the preferential adsorption function of formate on Zn surface,reducing the occurrence of side reactions at phase interface.Meanwhile,free formate in HEDLs regulates the Zn^(2+) solvation sheath structure to accelerate the desolvation,transference,and deposition kinetics of Zn^(2+).Besides,the hydrolysis reaction of zinc formate increases the hydrogen evolution overpotential,inhibiting the thermodynamic tendency of hydrogen evolution.Consequently,it presents stable cycle for more than 2400 h at 5 mA cm^(-2),as well as an average Coulombic efficiency of 99.8% at 1 A g^(-1) after 800 cycles in the Zn‖VO_(2) full cell.The interphase engineering strategy zinc anode by organic small molecular brings new possibility towards high-performance aqueous zinc-ion batteries. 展开更多
关键词 Zn anode Organic small molecule Aqueous zinc-ion battery Zinc formate
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Building the bridge of small organic molecules to porous carbons via ionic solid principle
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作者 Lei Tong Qian-Qian Yang +5 位作者 Shuai Li Le-Le Zhang Wei-Jie Zeng Yan-Wei Ding Liangdong Fan Hai-Wei Liang 《Nano Research》 SCIE EI CSCD 2023年第1期80-87,共8页
Replacing traditional polymer-based precursors with small molecules is a promising pathway toward facile and controllable preparation of porous carbons but remains a prohibitive challenge because of the high volatilit... Replacing traditional polymer-based precursors with small molecules is a promising pathway toward facile and controllable preparation of porous carbons but remains a prohibitive challenge because of the high volatility of small molecules.Herein,a simple,general,and controllable method is reported to prepare porous carbons by converting small organic molecules into organic molecular salts followed by pyrolysis.The robust electrostatic force holding organic molecular salts together leads to negligible volatility and thus ensures the formation of carbons under high-temperature pyrolysis.Meanwhile,metal moieties in organic molecular salts can be evolved into in-situ templates or activators during pyrolysis to create nanopores.The modular nature of organic molecular salts allows easy control of the porosity and chemical doping of carbons at a molecular level.The sulfur-doped carbon prepared by the ionic solid strategy can serve as robust support to prepare small-sized intermetallic PtCo catalysts,which exhibit a high mass activity of 1.62 A·mgPt^(−1)in catalyzing oxygen reduction reaction for fuel cell applications. 展开更多
关键词 porous carbon small organic molecules organic molecular salts ionic solid oxygen reduction reaction
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Design strategy and bioimaging of small organic molecule multicolor fluorescent probes 被引量:5
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作者 Yongfei Huang Yongbin Zhang +2 位作者 Fangjun Huo Ying Wen Caixia Yin 《Science China Chemistry》 SCIE EI CAS CSCD 2020年第12期1742-1755,共14页
Multicolor fluorescent probes based on small organic molecules have the advantages of low cost, good biocompatibility, easily modifiable molecular structures and adjustable fluorescence performance. In addition, small... Multicolor fluorescent probes based on small organic molecules have the advantages of low cost, good biocompatibility, easily modifiable molecular structures and adjustable fluorescence performance. In addition, small molecule multicolor fluorescent probes generally undergo multi-site or multi-step reactions, which means that they can be used for the specific detection of structurally similar substances in complex bio-systems. In this review, we focus on the design and application of multicolor fluorescent probes based on small organic molecules: single fluorophores with multiple reaction sites, multiple fluorophores with single reaction sites, or multiple fluorophores with multiple reaction sites. Moreover, a design strategy for multicolor fluorescent probes and its application in biological imaging are also summarized, providing a systematic plan for future research on fluorescent probes functionalized by small organic molecules. It will also play an important role in the development of additional functions for small organic molecule fluorescent probes. 展开更多
关键词 MULTICOLOR fluorescence probes small organic molecules design strategy BIOIMAGING
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Influence of the replacement of alkoxyl with alkylthienyl on photovoltaic properties of two small molecule donors for organic solar cells 被引量:2
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作者 Shaoqing Zhang Liyan Yang +4 位作者 Delong Liu Chang He Jianqi Zhang Yun Zhang Jianhui Hou 《Science China Chemistry》 SCIE EI CAS CSCD 2017年第10期1340-1348,共9页
Two benzo[1,2-b:4,5-b¢]dithiophene(BDT)-based small molecule(SM) donor materials with identical conjugated backbones but different substitution groups, named as DRTB-O and DRTB-T, were well explored to demonstrate th... Two benzo[1,2-b:4,5-b¢]dithiophene(BDT)-based small molecule(SM) donor materials with identical conjugated backbones but different substitution groups, named as DRTB-O and DRTB-T, were well explored to demonstrate the influence of the replacement of alkoxy with alkylthienyl on their photovoltaic properties in fullerene-based and fullerene-free organic solar cells(OSCs). The study shows that the two SM donors possess similar absorption spectra and energy levels but different crystalline structures in solid films. The carrier transport property and phase separation morphologies of the blend films have also been fully investigated.By employing PC71 BM as the acceptor, the power conversion efficiency(PCE) of DRTB-O:PC71BM and DRTB-T:PC71BM based devices were 4.91% and 7.08%, respectively. However, by blending with IDIC, the two SM donors exhibited distinctly different photovoltaic properties in fullerene-free OSCs, and the PCE of DRTB-O:IDIC and DRTB-T:IDIC based devices were 0.15% and9.06%, respectively. These results indicate that the replacement of alkoxyl with alkylthienyl in designing SM donor materials plays an important role in the application of fullerene-free OSCs. 展开更多
关键词 organic solar cells small molecule fullerene-free side chain molecular design
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One-Pot Synthesis of Tetraarylpyrrolo[3,2-b]pyrrole Dopant-Free Hole-Transport Materials for Inverted Perovskite Solar Cells
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作者 Liang-sheng Duan Quan-ping Wu +4 位作者 Yuan-yuan Xu Hui Wang Zhe Sun Yu Chen Song Xue 《Chinese Journal of Chemical Physics》 SCIE CAS CSCD 2021年第2期217-226,I0002,共11页
Four organic smallmolecule hole transport materials(D41, D42,D43 and D44) of tetraarylpyrrolo[3,2-b]pyrroles were prepared. They can be used without doping in the manufacture of the inverted planar perovskite solar ce... Four organic smallmolecule hole transport materials(D41, D42,D43 and D44) of tetraarylpyrrolo[3,2-b]pyrroles were prepared. They can be used without doping in the manufacture of the inverted planar perovskite solar cells. Tetraarylpyrrolo[3,2-b]pyrroles are accessible for one-pot synthesis.D42, D43 and D44 possess acceptor-π-donor-π-acceptor structure, on which the aryl bearing substitutes of cyan, fluorine and trifluoromethyl, respectively. Instead, the aryl moiety of D41 is in presence of methyl with a donor-π-donor-π-donor structure. The different substitutes significantly affected their molecular surface charge distribution and thin-film morphology, attributing to the electron-rich properties of fused pyrrole ring. The size of perovskite crystalline growth particles is affected by different molecular structures,and the electron-withdrawing cyan group of D42 is most conducive to the formation of large perovskite grains. The D42 fabricated devices with power conversion efficiency of17.3% and retained 55% of the initial photoelectric conversion efficiency after 22 days in dark condition. The pyrrolo[3,2-b]pyrrole is efficient electron-donating moiety for hole transporting materials to form good substrate in producing perovskite thin film. 展开更多
关键词 Pyrrole[3 2-b]pyrrole Hole-transporting materials Organic small molecules Dopant-free Perovskite solar cells
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Grain Boundary Passivation Modulated by Molecular Doping for High-Performance Perovskite Solar Cells
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作者 Yangyang Hao Yue Liu Guorui Cao 《Journal of Renewable Materials》 SCIE EI 2022年第12期3505-3519,共15页
Aiming to reduce the defects of perovskite film and improve carrier transport,an organic small molecule,benzo[d]isothiazol-3(2H)-one 1,1-dioxide(OBS),is introduced as an additive in the solution-processing of perovski... Aiming to reduce the defects of perovskite film and improve carrier transport,an organic small molecule,benzo[d]isothiazol-3(2H)-one 1,1-dioxide(OBS),is introduced as an additive in the solution-processing of perovskite and prepare uniform perovskite films with a continuous distribution of OBS at grain boundaries.Fourier trans-form infrared spectroscopy and X-ray photoelectron spectroscopy are conducted to reveal the interactions of hydrogen bonding and coordina tion bonding between OBS and perovskite.Various characterizations(including X-ray diffraction,UV-vis spectroscopy,electrochemical impedance spectroscopy,etc.)are conducted to uncover the effect of OBS on device performance.Consequently,high efficiency of 23.26%is obtained for the OBS-treated device,while the control device shows only a companion efficiency of 21.60%. 展开更多
关键词 Perovskite solar cells organic small molecule grain boundary hydrogen bonding coordination bonding
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Unraveling the role of NiSnPH@OOH/CC perovskite hydroxide for efficient electrocatalytic oxidation of methanol to formate
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作者 Jing Shao Yusheng Fang +2 位作者 Xiaobing Wu Muhammad Imran Abdullah Youkun Tao 《Nano Research》 SCIE EI CSCD 2024年第4期2388-2399,共12页
The sluggish kinetics of oxygen evolution reaction(OER)is the key tailback for hydrogen production from the water electrolysis.Masking OER with thermodynamically auspicious methanol oxidation reaction(MOR)can signific... The sluggish kinetics of oxygen evolution reaction(OER)is the key tailback for hydrogen production from the water electrolysis.Masking OER with thermodynamically auspicious methanol oxidation reaction(MOR)can significantly boost the H_(2) and value-added products production.However,it is currently challenging to achieve a synergistic manipulation of product selectivity and performance for MOR electrocatalyst.Herein,we report NiSnPH@OOH/CC(CC=carbon cloth)perovskite hydroxide nanosphere as an efficient MOR electrocatalyst with high activity,stability,and selectivity towards methanol oxidation to formate.A surface amorphous layer of defect rich NiOOH was generated in operando by selective Sn leaching with stable perovskite hydroxide bulk structure,which mitigates the oxidative power and optimizes the local coordination environment of the active NiOOH sites.In situ Raman combined with electrochemical studies further confirm the key active species,NiOOH,generated in operando enhance the MOR and blocking the over oxidation of methanol to CO_(2).As a result,NiSnPH@OOH/CC effectively masks the OER and attains>99%selectivity with 100%Faradic efficiency for methanol-to-formate.The results of this study show the advances of NiSnPH@OOH/CC as an efficient electrocatalyst for MOR and also suggest its potential applications for various small organic molecules oxidation. 展开更多
关键词 perovskite hydroxide small organic molecules nickel oxy(hydroxide) value-added products methanol oxidation reaction
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