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Ultrathin polyamide nanofiltration membrane prepared by triazine-based porous organic polymer as interlayer for dye removal
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作者 Yongbo Liu Zhihao Si +4 位作者 Cong Ren Hanzhu Wu Peng Zhan Yuqing Peng Peiyong Qin 《Chinese Journal of Chemical Engineering》 SCIE EI CAS CSCD 2023年第5期193-201,共9页
Separation membrane with high flux is generally encouraged in industrial application,because of the tremendous needs for decreasing membrane areas,usage costs and space requirements.The most effective and direct metho... Separation membrane with high flux is generally encouraged in industrial application,because of the tremendous needs for decreasing membrane areas,usage costs and space requirements.The most effective and direct method for obtaining the high flux is to decrease membrane thickness.Polyamide(PA)nanofiltration membrane is conventionally prepared by the direct interfacial polymerization(IP)on substrate surface,and results in a thick PA layer.In this work,we proposed a strategy that constructing triazine-based porous organic polymer(TRZ-POP)as the interlayer to prepare the ultrathin PA nanofiltration membranes.TRZ-POP is firstly deposited on the polyethersulfone substrate,and then the formed TRZ-POP provides more adhesion sites towards PA based on its high specific surface areas.The chemical bonding between terminal amine group of TRZ-POP and the amide group of PA further improves the binding force,and strengthens the stability of PA layer.More importantly,the high porosity of TRZPOP layer causes the higher polymerization of initial PA owning to the stored sufficient amino monomer;and H-bonding interaction between amine groups of TRZ-POP and piperazine(PIP)can astrict the release of PIP.Thus,IP process is controlled,and the thinnest thickness of prepared PA layer is only<15 nm.As expected,PA/TRZ-POP membrane shows a more excellent water flux of 1414 L·m^(-2)·h^(-1)·MPa^(-1)than that of the state-of-the-art nanofiltration membranes,and without sacrificing dye rejection.The build of TRZPOP interlayer develops a new method for obtaining a high-flux nanofiltration membrane. 展开更多
关键词 POLYAMIDE Nanofiltration Interfacial polymerization Triazine-based porous organic polymer
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A Pd-metalated porous organic polymer as a highly efficient heterogeneous catalyst for C–C couplings 被引量:3
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作者 戴志锋 陈芳 +4 位作者 孙琦 纪妍妍 王亮 孟祥举 肖丰收 《Chinese Journal of Catalysis》 SCIE EI CAS CSCD 北大核心 2016年第1期54-60,共7页
An efficient catalyst system based on a Pd-metalated porous organic polymer bearing phenanthroline ligands was designed and synthesized.This catalyst was applied to various C–C bond-forming reactions,including the Su... An efficient catalyst system based on a Pd-metalated porous organic polymer bearing phenanthroline ligands was designed and synthesized.This catalyst was applied to various C–C bond-forming reactions,including the Suzuki,Heck and Sonogashira couplings,and afforded the corresponding products while exhibiting excellent activities and selectivities.More importantly,this catalyst can be readily recycled.These features show that such catalysts have significant potential applications in the future. 展开更多
关键词 porous organic polymer Phenanthroline ligand Carbon–carbon couplings Pd-based heterogeneous catalyst
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Recent progress in porous organic polymers and their application for CO_(2) capture 被引量:2
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作者 Jiajia Wang Lizhi Wang +4 位作者 You Wang Du Zhang Qin Xiao Jianhan Huang You-Nian Liu 《Chinese Journal of Chemical Engineering》 SCIE EI CAS CSCD 2022年第2期91-103,共13页
Carbon capture,storage,and utilization(CCSU)is recognized as an effective method to reduce the excessive emission of CO_(2).Absorption by amine aqueous solutions is considered highly efficient for CO_(2) capture from ... Carbon capture,storage,and utilization(CCSU)is recognized as an effective method to reduce the excessive emission of CO_(2).Absorption by amine aqueous solutions is considered highly efficient for CO_(2) capture from the flue gas because of the large CO_(2) capture capacity and high selectivity.However,it is often limited by the equipment corrosion and the high desorption energy consumption,and adsorption of CO_(2) using solid adsorbents has been receiving more attention in recent years due to its simplicity and high efficiency.More recently,a great number of porous organic polymers(POPs)have been designed and constructed for CO_(2) capture,and they are proven promising solid adsorbents for CO_(2) capture due to their high Brunauer-Emmett-Teller(BET)surface area(SBET),adjustable pore size and easy functionalization.In particular,they usually have rigid skeleton,permanent porosity,and good physiochemical stability.In this review,we have a detailed review for the different POPs developed in recent years,not only the design strategy,but also the special structure for CO_(2) capture.The outlook of the opportunities and challenges of the POPs is also proposed. 展开更多
关键词 porous organic polymers SELECTIVITY ADSORBENT CO_(2)capture
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Post-synthesis modification of porous organic polymers with amine: a task-specific microenvironment for CO2 capture 被引量:2
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作者 Yankai Li Li Yang +2 位作者 Xiang Zhu Jun Hu Honglai Liu 《International Journal of Coal Science & Technology》 EI 2017年第1期50-59,共10页
A porous organic polymer named FC-POP was facilely synthesized with extraordinary porosity and excellent stability. Further covalent incorporation of various amines including single amine group, multi-amine groups of ... A porous organic polymer named FC-POP was facilely synthesized with extraordinary porosity and excellent stability. Further covalent incorporation of various amines including single amine group, multi-amine groups of diethylenediamine (DETA), and poly-amine groups of polyethylenimine (PEI) to the network gave rise to task-specific modification of the microenvironments to make them more suitable for CO2 capture. As a result, significant boost of CO2 adsorption capacity of 4.5 mmol/g (for FC-POP-CH2DETA, 273 K, 1 bar) and the CO2/N2 selectivity of 736.1 (for FC- POP-CH2PEI) were observed after the post-synthesis amine modifications. Furthermore, these materials can be regener- ated in elevated temperature under vacuum without apparent loss of CO2 adsorption capacity. 展开更多
关键词 porous organic polymers Friedel-Crafts alkylation Post-synthesis Amine modification CO2 capture
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Ferrocenyl building block constructing porous organic polymer for gas capture and methyl violet adsorption 被引量:1
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作者 HUANG Jin TAN Zhi-qiang +4 位作者 SU Hui-min GUO Yi-wen LIU Huan LIAO Bo LIU Qing-quan 《Journal of Central South University》 SCIE EI CAS CSCD 2020年第4期1247-1261,共15页
Ferrocene-based porous organic polymer(FcPOP) was constructed with ferrocene and porphyrin derivatives as building blocks via Schiff-base coupling. FcPOP was well characterized, and exhibited good thermal stability, h... Ferrocene-based porous organic polymer(FcPOP) was constructed with ferrocene and porphyrin derivatives as building blocks via Schiff-base coupling. FcPOP was well characterized, and exhibited good thermal stability, high porosity, microporous structure, and homogeneous pore size distribution. Ferrocene blocks with highly electron-rich characteristics endowed Fc POP with excellent adsorption capacity of CO2 and methyl violet. The kinetic study indicated adsorption of methyl violet onto FcPOP mainly complied with pesudo-second order model. The maximum adsorption capacity of FcPOP derived from Langmuir isotherm model reached up to 516 mg/g. More importantly, FcPOP could be easily regenerated and repeatedly employed for removal of methyl violet with high efficiency. Overall, FcPOP in the present study highlighted prospective applications in the field of gas capture and dyeing wastewater treatment. 展开更多
关键词 FERROCENE porous organic polymer gas capture dyeing wastewater
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Boosting selective C_(2)H_(2)/CH_(4),C_(2)H_(4)/CH_(4) and CO_(2)/CH_(4) adsorption performance via 1,2,3-triazole functionalized triazine-based porous organic polymers
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作者 Xionghui Liu Jianfeng Du +6 位作者 Yu Ye Yuchuan Liu Shun Wang Xianyu Meng Xiaowei Song Zhiqiang Liang Wenfu Yan 《Chinese Journal of Chemical Engineering》 SCIE EI CAS CSCD 2022年第2期64-72,共9页
Nitrogen-rich porous organic polymers have shown great potentials in gas adsorption/separation,photocatalysis,electrochemistry,sensing and so on.Herein,1,2,3-triazole functionalized triazine-based porous organic polym... Nitrogen-rich porous organic polymers have shown great potentials in gas adsorption/separation,photocatalysis,electrochemistry,sensing and so on.Herein,1,2,3-triazole functionalized triazine-based porous organic polymers(TT-POPs)have been synthesized by the copper-catalyzed azide-alkyne cycloaddition(Cu-AAC)polymerization reactions of 1,3,5-tris(4-azidophenyl)-triazine with 1,4-diacetylene benzene and 1,3,5-triacetylenebenzene,respectively.The characterizations of N2 adsorption at 77 K show TTPOPs possess permanent porosity with BET surface areas of 666 m^(2)·g^(-1)(TT-POP-1)and 406 m^(2)·g^(-1)(TT-POP-2).The adsorption capacities of TT-POPs for CO_(2),CH4,C2H2 and C2H4,as well as the selective separation abilities of CO_(2)/N2,CO_(2)/CH_(4),C_(2)H_(2)/CH_(4) and C_(2)H_(4)/CH_(4) were evaluated.The gas selective separation ratio of TT-POPs was calculated by the ideal adsorbed solution theory(IAST)method,wherein the selective separation ratios of C_(2)H_(2)/CH_(4) and C_(2)H_(4)/CH_(4) of TT-POP-2 was 48.4 and 13.6(298 K,0.1 MPa),which is comparable to other adsorbents(5.6–120.6 for C_(2)H_(2)/CH_(4),10–26 for C_(2)H_(4)/CH_(4)).This work shows that the 1,2,3-triazole functionalized triazine-based porous organic polymer has a good application prospect in natural gas purification. 展开更多
关键词 porous organic polymers Triazole CO_(2)capture Light hydrocarbons Gas separation Natural gas purification
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Polarization engineering in porous organic polymers for charge separation efficiency and its applications in photocatalytic aerobic oxidations
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作者 Kun Wu Pei-Wen Cheng +6 位作者 Xin-Yi Liu Ji Zheng Xiao-Wei Zhu Mo Xie Puxin Weng Weigang Lu Dan Li 《Science China Chemistry》 SCIE EI CAS CSCD 2024年第3期1000-1007,共8页
Photocatalytic aerobic oxidation reactions are largely governed by the efficiency of charge separation and subsequent reactive oxygen species(ROS) generation. Herein, we report a polarization engineering strategy to p... Photocatalytic aerobic oxidation reactions are largely governed by the efficiency of charge separation and subsequent reactive oxygen species(ROS) generation. Herein, we report a polarization engineering strategy to promote the charge separation and ROS generation efficiency by substituting the benzene unit with furan/thiophene in porous organic polymers(POPs). Benefiting from the extent of local polarization, the thiophene-containing POP(JNU-218) exhibits the best photocatalytic performance in aerobic oxidation reactions, with a yield much higher than those for the furan-containing POP(JNU-217) and the benzenecontaining POP(JNU-216). Experimental studies and theoretical calculations reveal that the increase of local polarization can indeed reduce the exciton binding energy, and therefore facilitate the separation of electron-hole pairs. This work demonstrates a viable strategy to tune charge separation and ROS generation efficiency by modulating the dipole moments of the building blocks in porous polymeric organic semiconductors. 展开更多
关键词 porous organic polymer local polarization photocatalytic aerobic oxidation charge separation reactive oxygen species exciton binding energy
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Insertion of pillar[5]arene into Troger’s base-derived porous organic polymer for promoted heterogeneous catalytic performance in Knoevenagel condensation and CO_(2)fixation
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作者 Lu Liu Ziyi Liu +2 位作者 Jingnan Cui Guiling Ning Weitao Gong 《Chinese Chemical Letters》 SCIE CAS CSCD 2024年第1期482-485,共4页
Development of new metal-free heterogeneous catalysts has long been the focus of intense research interest.The integration of multifunctional monomers into the skeletons of porous organic polymers(POPs)provides an eff... Development of new metal-free heterogeneous catalysts has long been the focus of intense research interest.The integration of multifunctional monomers into the skeletons of porous organic polymers(POPs)provides an efficient pathway to achieve this goal.Herein,we rationally designed and successfully prepared a new Troger’s base(TB)-derived POPs by insertion of pillar[5]arene macrocycle as a positively auxiliary group.Combined the both merits of pillar[5]arene macrocycle and TB moiety,the as-prepared polymer was further explored as an effective metal-free heterogeneous catalyst and exhibited promoted catalytic performance in Knoevenagel condensation and CO_(2)conversion.This work provides a new strategy to fabricate metal-free heterogeneous catalysts based on macrocyclic POPs. 展开更多
关键词 arene macrocycle porous organic polymers Heterogeneous catalytic Knoevenagel condensation CO_(2)fixation
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Controlled Synthesis of Proton-Conductive Porous Organic Polymer Gels via Electrostatically Stabilized Colloidal Formation
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作者 Bin Chen Yifeng Kuang +5 位作者 Lu Liu Linkun Cai Zaoming Wang Panchao Yin Liangbin Huang Cheng Gu 《CCS Chemistry》 CSCD 2024年第7期1767-1775,共9页
Porous organic polymers(POPs)have attracted extensive interest due to their structural diversity and predesigned functionality.However,the majority of POPs are synthesized as insoluble and unprocessable powders,which ... Porous organic polymers(POPs)have attracted extensive interest due to their structural diversity and predesigned functionality.However,the majority of POPs are synthesized as insoluble and unprocessable powders,which greatly impede their advanced applications because of limited mass transport and inadaptation for device integration.Herein,we report a controlled synthetic strategy of macroscopic POP gels by a cation-stabilized colloidal formation mechanism,which is widely adaptable to a large variety of tetra-/tri-amino build blocks for the synthesis of Tröger’s base-linked POP gels,aerogels,and ionic gels.The POP gels combined the integrated advantages of hierarchically porous structures and tailorable mechanical stiffness,whereas they could load substantial amounts of phosphoric acids and construct unimpeded transport pathways for proton conduction,exhibiting unprecedented proton conductivity at subzero temperatures.Our strategy offers a new solution to the intractable processing issues of POPs toward device applications with cutting-edge performances. 展开更多
关键词 porous organic polymers Tröger’s base linkage GELS superprotonic conduction subzero temperatures
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Pyrylium-based porous organic polymers via Knoevenagel condensation for efficient visible-light-driven heterogeneous photodegradation
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作者 Renwei Hu Mehdi Hassan +2 位作者 Lu Liu Shuguang Zhang Weitao Gong 《Chinese Chemical Letters》 SCIE CAS CSCD 2023年第4期279-282,共4页
Pyrylium salts are a type of representative and convincing example of versatility and variety not only as a nodal point in organic transformations but also as an attractive building block in functional organic materia... Pyrylium salts are a type of representative and convincing example of versatility and variety not only as a nodal point in organic transformations but also as an attractive building block in functional organic materials. Herein, we report an effective synthetic protocol to fabricate a new pyrylium-containing porous organic polymers(POPs), named TMP-P, via Knoevenagel condensation with 2,4,6-trimethylpyrylium salt(TMP) as the key building block and 1,4-phthalaldehyde as the linker. The resulting ionic polymer TMPP exhibited efficient visible-light-driven heterogeneous photodegradation of Rhodamine B, owing to the presence of wide visible light absorption and a narrow optical band gap triggered pyrylium core in the framework. 展开更多
关键词 Ionic porous organic polymer Pyryliun salts Knoevenagel reaction Vinylene-linked PHOTODEGRADATION
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(Catecholate)Cu^(I)_(2)-Displayed Porous Organic Polymers as Efficient Heterogeneous Catalysts for the Mild and Selective Aerobic Oxidation of Alcohols
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作者 Youlong Zhu Debabrata Mukherjee +1 位作者 Theodore R.Helgert SonBinh T.Nguyen 《CCS Chemistry》 CAS CSCD 2023年第2期445-454,共10页
Porous organic polymers(POPs)containing catalytically active sites are of paramount importance for heterogeneous catalysis.However,the catalytically active sites of reported POPs are mostly limited to mononuclear meta... Porous organic polymers(POPs)containing catalytically active sites are of paramount importance for heterogeneous catalysis.However,the catalytically active sites of reported POPs are mostly limited to mononuclear metal species.Herein,we report the reaction between catechol-containing POPs(Cat-POPs)and[CuIMes]n to afford the corresponding Cu^(I)_(2)-CatPOPs with a putative vicinal binuclear(catecholate)Cu^(I)_(2)moiety.The resulting Cu^(I)_(2)-CatPOPs exhibit high Brunauer–Emmett–Teller surface areas,good stability,and excellent catalytic activity toward the aerobic oxidation of a broad range of primary and secondary alcohols under mild conditions,with either 2,2,6,6-tetramethylpiperidinyl-N-oxyl or 9-azabicyclo[3.3.0]nonane-N-oxyl as the cocatalyst.As green aerobic oxidation catalysts,the Cu^(I)_(2)-CatPOPs are much more active than the correspondingmononuclear CuIICatPOPs,where each catecholate moiety only supports one CuII center;CuI-ConPOPs,where the binding sites for CuI is a nonvicinal 1,4-dihydroxybenzene moiety;and the homogeneous analogue(3,6-di-tert-butyl catecholate)Cu^(I)_(2).These results are consistent with a proposed vicinal binuclear Cu^(I)_(2)structure that can efficiently activate molecular oxygen for the aerobic oxidation of alcohols,mechanistically similar to that observed in dicopper-containing oxygenases.Our results demonstrate the facile preparation of POPs with binuclear catalytically active sites that function as green heterogeneous catalysts for efficient oxidation of alcohols. 展开更多
关键词 porous organic polymers binuclear copper(I) heterogeneous catalysis aerobic oxidation green chemistry
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Engineering porous organic polymers for carbon dioxide capture 被引量:5
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作者 Ning Huang Gregory Day +2 位作者 Xinyu Yang Hannah Drake Hong-Cai Zhou 《Science China Chemistry》 SCIE EI CAS CSCD 2017年第8期1007-1014,共8页
As atmospheric CO_2 levels rise, the development of physical or chemical adsorbents for CO_2 capture and separation is of great importance on the way towards a sustainable low-carbon future. Porous organic polymers ar... As atmospheric CO_2 levels rise, the development of physical or chemical adsorbents for CO_2 capture and separation is of great importance on the way towards a sustainable low-carbon future. Porous organic polymers are promising candidates for CO_2 capture materials owing to their structural flexibility, high surface area, and high stability. In this review, we highlight high-performance porous organic polymers for CO_2 capture and summarize the strategies to enhance CO_2 uptake and selectivity, such as increasing surface area, increasing interaction between porous organic polymers and CO_2, and pore surface functionalization. 展开更多
关键词 porous organic polymers C02 capture NANOMATERIALS post-synthesis polymer
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Potential applications of porous organic polymers as adsorbent for the adsorption of volatile organic compounds 被引量:5
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作者 Shuangchun Lu Qingling Liu +6 位作者 Rui Han Miao Guo Jiaqi Shi Chunfeng Song Na Ji Xuebin Lu Degang Ma 《Journal of Environmental Sciences》 SCIE EI CAS CSCD 2021年第7期184-203,共20页
Volatile organic compounds(VOCs)with high toxicity and carcinogenicity are emitted from kinds of industries,which endanger human health and the environment.Adsorption is a promising method for the treatment of VOCs du... Volatile organic compounds(VOCs)with high toxicity and carcinogenicity are emitted from kinds of industries,which endanger human health and the environment.Adsorption is a promising method for the treatment of VOCs due to its low cost and high efficiency.In recent years,activated carbons,zeolites,and mesoporous materials are widely used to remove VOCs because of their high specific surface area and abundant porosity.However,the hydrophilic nature and low desorption rate of those materials limit their commercial application.Furthermore,the adsorption capacities of VOCs still need to be improved.Porous organic polymers(POPs)with extremely high porosity,structural diversity,and hydrophobic have been considered as one of the most promising candidates for VOCs adsorption.This review generalized the superiority of POPs for VOCs adsorption compared to other porous materials and summarized the studies of VOCs adsorption on different types of POPs.Moreover,the mechanism of competitive adsorption between water and VOCs on the POPs was discussed.Finally,a concise outlook for utilizing POPs for VOCs adsorption was discussed,noting areas in which further work is needed to develop the next-generation POPs for practical applications. 展开更多
关键词 porous organic polymers Volatile organic compounds Adsorption superiority Competitive adsorption
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Spatial control of palladium nanoparticles in flexible click-based porous organic polymers for hydrogenation of olefins and nitrobenzene 被引量:3
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作者 Liuyi Li 《Nano Research》 SCIE EI CAS CSCD 2015年第3期709-721,共13页
Two flexible click-based porous organic polymers (CPP-F1 and CPP-F2) have been readily synthesized. SEM images show CPP-F1 is a 3D network, while CPP-F2 exhibits a granular morphology. Pd(OAc)2 can be easily incor... Two flexible click-based porous organic polymers (CPP-F1 and CPP-F2) have been readily synthesized. SEM images show CPP-F1 is a 3D network, while CPP-F2 exhibits a granular morphology. Pd(OAc)2 can be easily incorporated into CPP-F1 and CPP-F2 to form Pd@CPP-F1 and Pd@CPP-F2, respectively. The interactions between the polymers and palladium are confirmed by solid-state 13C NMR, IR and XPS. Palladium nanoparticles (NPs) are formed after hydrogenation of olefins and nitrobenzene. Palladium NPs in CPP-F1 are well dispersed on the external surface of the polymer, while palladium NPs in CPP-F2 are located in the interior pores and on the external surface. In comparison with NPs in CPP-F1, the dual distribution of palladium NPs in CPP-F2 results in higher selectivity in the hydrogenation of 1,3-cyclohexadiene to cyclohexane. The catalytic systems can be recycled several times without obvious loss of catalytic activity or agglomeration of palladium NPs. Hot filtration, mercury drop tests and ICP analyses suggest that the catalytic systems proceed via a heterogeneous pathway. 展开更多
关键词 porous organic polymers click reaction heterogeneous catalysis PALLADIUM nanoparticles
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Recent development of efficient electrocatalysts derived from porous organic polymers for oxygen reduction reaction 被引量:3
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作者 Shuanglong Lu Yinghua Jin +1 位作者 Hongwei Gu Wei Zhang 《Science China Chemistry》 SCIE EI CAS CSCD 2017年第8期999-1006,共8页
Porous organic polymers(POPs) have recently emerged as promising candidates for catalyzing oxygen reduction reaction(ORR).Compared to conventional Pt-based ORR catalysts, these newly developed porous materials, includ... Porous organic polymers(POPs) have recently emerged as promising candidates for catalyzing oxygen reduction reaction(ORR).Compared to conventional Pt-based ORR catalysts, these newly developed porous materials, including both non-precious metal based catalysts and metal-free catalysts, are more sustainable and cost-effective. Their porous structures and large surface areas facilitate mass and electron transport and boost the ORR kinetics. This mini-review will give a brief summary of recent development of POPs as electrocatalysts for the ORR. Some design principles, different POP structures, key factors for their ORR catalytic performance, and outlook of POP materials will be discussed. 展开更多
关键词 porous organic polymers oxygen reduction reaction ELECTROCATALYSIS METALLOPORPHYRIN
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Hollow click-based porous organic polymers for heterogenization of [Ru(bpy)3]2+ through electrostatic interactions 被引量:2
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作者 Liuyi Li Caiyan Cui +2 位作者 Wenyue Su Yangxin Wang Ruihu Wang 《Nano Research》 SCIE EI CAS CSCD 2016年第3期779-786,共8页
A facile approach for the heterogenization of transition metal catalysts using non-covalent interactions in hollow click-based porous organic polymers (H-CPPs) is presented. A catalytically active cationic species, ... A facile approach for the heterogenization of transition metal catalysts using non-covalent interactions in hollow click-based porous organic polymers (H-CPPs) is presented. A catalytically active cationic species, [Ru(bpy)3]〉 (bpy = 2,2'-bipyridyl), was immobilized in H-CPPs via electrostatic interactions. The intrinsic properties of [Ru(bpy)3]〉 were well retained. The resulting Ru- containing hollow polymers exhibited excellent catalytic activity, enhanced stability, and good recyclability when used for the oxidative hydroxylation of 4-methoxyphenylboronic acid to 4-methoxyphenol under visible-light irradiation. The attractive catalytic performance mainly resulted from efficient mass transfer and the maintenance of the chemical properties of the cationic Ru complex in the H-CPPs. 展开更多
关键词 porous organic polymers HOLLOW HETEROGENIZATION cationic metal complex catalysis
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Porous organic polymer nanotubes as luminescent probe for highly selective and sensitive detection of Fe^(3+) 被引量:1
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作者 Meng Wang Lin Guo Dapeng Cao 《Science China Chemistry》 SCIE EI CAS CSCD 2017年第8期1090-1097,共8页
Two porous organic polymer nanotubes(PNT-2 and PNT-3) were synthesized via Ni-catalyzed Yamamoto reaction, using2,4,6-tris-(4-bromo-phenyl)-[1,3,5]-triazine(TBT) as one monomer, and 2,7-dibromopyrene(DBP) or 1,3,6,8-t... Two porous organic polymer nanotubes(PNT-2 and PNT-3) were synthesized via Ni-catalyzed Yamamoto reaction, using2,4,6-tris-(4-bromo-phenyl)-[1,3,5]-triazine(TBT) as one monomer, and 2,7-dibromopyrene(DBP) or 1,3,6,8-tetrabromopyrene(TBP) as another monomer. The scanning electron microscope(SEM) images show that both PNT-2 and PNT-3 possess clear hollow tube structures. Luminescent measurements indicate that both PNT-2 and PNT-3 can serve as luminescent probe for highly selective and sensitive detection of Fe^(3+) by luminescent quenching effect. Absorption competition quenching(ACQ) mechanism is also proposed to explain luminescent quenching behavior, i.e., the overlap of the UV-spectra between Fe^(3+) and PNTs causes the energy competition, and therefore leads to luminescent quenching. Moreover, both PNT-2 and PNT-3 still show high selectivity and sensitivity for sensing Fe^(3+) in 10% ethanol aqueous solution, which means that the two porous PNTs are promising candidates as luminescent probes for detecting Fe^(3+) in practical applications. 展开更多
关键词 porous organic polymers polymer nanotubes luminescent sensors adsorption spectrum metal ions
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In-situ self-templating synthesis of 3D hierarchical porous carbonsfrom oxygen-bridged porous organic polymers for highperformance supercapacitors 被引量:1
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作者 Qi Xiong Bei Liu +5 位作者 Yijiang Liu Pu Wang Hua Cheng Huaming Li Zhouguang Lu Mei Yang 《Nano Research》 SCIE EI CSCD 2022年第9期7759-7768,共10页
It is a big challenge to well control the porous structure of carbon materials for supercapacitor application.Herein,a simple in-situ self-templating strategy is developed to prepare three-dimensional(3D)hierarchical ... It is a big challenge to well control the porous structure of carbon materials for supercapacitor application.Herein,a simple in-situ self-templating strategy is developed to prepare three-dimensional(3D)hierarchical porous carbons with good combination of micro and meso-porous architecture derived from a new oxygen-bridged porous organic polymer(OPOP).The OPOP is produced by the condensation polymerization of cyanuric chloride and hydroquinone in NaOH ethanol solution and NaCl is in-situ formed as by-product that will serve as template to construct an interconnected 3D hierarchical porous architecture upon carbonization.The large interface pore architecture,and rich doping of N and O heteroatoms effectively promote the electrolyte accessibility and electronic conductivity,and provide abundant active sites for energy storage.Consequently,the supercapacitors based on the optimized OPOP-800 sample display an energy density of 8.44 and 27.28 Wh·kg^(−1)in 6.0 M KOH and 1.0 M Na2SO4 electrolytes,respectively.The capacitance retention is more than 94%after 10,000 cycles.Furthermore,density functional theory(DFT)calculations have been employed to unveil the charge storage mechanism in the OPOP-800.The results presented in this job are inspiring in finely tuning the porous structure to optimize the supercapacitive performance of carbon materials. 展开更多
关键词 in-situ self-templating porous organic polymer three-dimensional(3D)hierarchical porous carbons SUPERCAPACITORS
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Selective and Sensitive Discrimination of Zinc and Cadmium Based on a Novel Fluorescent Porous Organic Polymer 被引量:1
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作者 Yu-Nan Wu An-Ting Qiu +4 位作者 Zu-Qi Zhong Li-Zhi Wang Ming-Yue Yuan Heng-Xin Zhao Sai-Jin Xiao 《Journal of Analysis and Testing》 EI 2021年第3期235-241,共7页
Zinc and cadmium are two main transition metal ions and play profound important roles in environmental and human health.But the distinctive detection of these two ions is still challenging since they belong to the sam... Zinc and cadmium are two main transition metal ions and play profound important roles in environmental and human health.But the distinctive detection of these two ions is still challenging since they belong to the same periodic group and have similar chemical properties.A fluorescent bipyridine-based porous organic polymer(Bpy-POP)containing aggregation caused quenching(ACQ)units(anthracene)and metal ions recognition units(bipyridine)was synthesized through the Schiff base condensation reaction.In the DMF/H_(2)O mixtures with the water fractions of 90%,the Bpy-POP aggregated and the fluorescent Bpy-POP quenched subsequently due to the ACQ effect of anthracene in the skeleton("OFF"state).With the addition of Zn^(2+)or Cd^(2+),however,the strong coordination of the bipyridine units from the adjacent Bpy-POPs with Zn^(2+)or Cd^(2+)induced the partial dispersion of large Bpy-POP aggregates.Consequently,the fluorescence intensities enhanced dramatically as well as the fluorescence emission shifted to redder region,showing an"ON"state.Combing the fluorescence increasing efficiency and the maximum emission wavelength shift degree together,Zn^(2+)and Cd^(2+)can be selectively discriminated and quantitatively detected,which exhibits a great promising of the present Bpy-POP based method in Zn^(2+)and Cd^(2+)monitoring in real samples. 展开更多
关键词 ZINC Cadnium porous organic polymer Aggregation caused quenching BIPYRIDINE
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Design of porous organic polymer catalysts for transformation of carbon dioxide 被引量:2
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作者 Guipeng Ji Yanfei Zhao Zhimin Liu 《Green Chemical Engineering》 2022年第2期96-110,共15页
The transformation of carbon dioxide(CO_(2))into fuels and chemicals is an interesting topic,which has been paid much attention in recent years.The materials with specific functionalities are highly required for CO_(2... The transformation of carbon dioxide(CO_(2))into fuels and chemicals is an interesting topic,which has been paid much attention in recent years.The materials with specific functionalities are highly required for CO_(2)capture and conversion,which have been widely investigated.As an emerging material platform,porous organic polymers(POPs)have attracted considerable scientific interest due to their distinctive properties such as tailorable func-tionalization,large surface areas,adjustable porosity,versatile polymerizations,good physicochemical and thermal stability.Our group focuses on designing and synthesizing POPs via introducing CO_(2)-philic groups and organic ligands into the skeletons of the polymers and immobilizing metal active species onto their surface,and a series of POPs with functional groups,such as,azo,Tr€oger's base,fluorine,phenolic–OH,have been prepared for CO_(2)transformation.In this review article,we mainly introduce our recent work on design of POPs-based catalysts for CO_(2)transformation,which include POPs-based catalysts for cycloaddition reactions of epoxides and prop-argylic alcohols with CO_(2),for reductive transformation of CO_(2)with H 2,for photocatalytic/electrocatalytic reduction of CO_(2).In addition,the perspectives of the POP-based catalysts for CO_(2)transformation will be discussed as well. 展开更多
关键词 porous organic polymers Carbon dioxide CO_(2)transformation
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