金纳米粒子/MOFs复合材料的制备与应用进展
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摘要
综述了金纳米粒子与金属有机框架复合材料(MOFs)的制备方法和应用领域进展,对MOFs-金纳米粒子原位合成法和MOFs后合成法进行归纳,并分析了其特点,总结了近年来金纳米粒子和MOFs复合材料在催化、新材料制备等领域的应用,并对这类材料未来应用前景进行展望。
The progress in the preparation and application of gold nanoparticles and metal organic framework composites(MOFs)is introduced. We describe and analyze the main two methods for preparation composites that the post-synthesis of MOFs and the in-situ synthesis of gold nanoparticles in MOFs. The application of gold nanoparticles and MOFs composites are summarized in the field of catalysis and new materials preparation in recent years. We will provide an outlook of the future development of such materials.
The progress in the preparation and application of gold nanoparticles and metal organic framework composites(MOFs)is introduced. We describe and analyze the main two methods for preparation composites that the post-synthesis of MOFs and the in-situ synthesis of gold nanoparticles in MOFs. The application of gold nanoparticles and MOFs composites are summarized in the field of catalysis and new materials preparation in recent years. We will provide an outlook of the future development of such materials.
引文
[1]Dawei Wang,Zhiwei Li,Jian Zhou,et al.Simultaneous detection and removal of formaldehyde at room temperature:Janus Au@ZnO@ZIF-8 nanoparticles[J].Nano-Micro Letters,2018,10(1):34-44.
[2]Lei Chen,Fei Ji,Yong Xu,et al.High-yield seedless synthesis of triangular gold nanoplates through oxidative etching[J].Nano Letters,2014,14(12):7201-7206.
[3]Martin Prieto,Raul Arenal,Luc Henrard,et al.Morphological tunability of the plasmonic response:From hollow gold nanoparticles to gold nanorings[J].Journal of Physical Chemistry C,2014,118(49):28804-28811.
[4]Peter Priecel,Hammed Adekunle Salami,Romen Herrera Padilla,et al.Anisotropic gold nanoparticles:Preparation and applications in catalysis[J].Chinese Journal of Catalysis,2016,37(10):1619-1650.
[5]Daeha Seo,Choong Il Yoo,Im Sik Chung,et al.Shape adjustment between multiply twinned and single-crystalline polyhedral gold nanocrystals:Decahedra,icosahedra,and truncated tetrahedra[J].Journal of Physical Chemistry C,2008,112(7):2469-2475.
[6]Guangju Zhou,Yun Yang,Shuhua Han,et al.Growth of nanobipyramid by using large sized Au decahedra as seeds[J].ACSApplied Materials&Interfaces,2013,5(24):13340-13352.
[7]Sanele Nyembe,Siyasanga Mpelane,Poslet Shumbula,et al.Platonic gold nanocrystals:Formation of icosahedron and decahedron nanostructures through twining mechanism[J].Journal of Nanoscience&Nanotechnology,2016,16(9):1-6.
[8]Thi Tan Pham,Long Ngoc Le,Hoa Ngoc Nguyen,et al.Encapsulating gold nanoparticles in zeolitic imidazolate framework crystal for novel optical response[J].Polyhedron,2018,148:171-177.
[9]Hang Yin,Jungkyu Choi,Alex C.K.Yip.Anti-poisoning core-shell metal/ZIF-8 catalyst for selective alkene hydrogenation[J].Catalysis Today,2016,265:203-209.
[10]王凯.金属-有机框架材料固载Au、Pd的制备及其催化性能的研究[D].南昌大学,2017.
[11]黄金萍,凌红亚,李和兴.Au纳米粒子植入Zr-金属有机框架化合物(Zr-MOF)用于催化水介质中的A3-偶联反应[J].分子催化,2013,27(1):1-9.
[12]Zheng Li,Hua Chun Zeng.Surface and bulk integrations of single-layered Au or Ag nanoparticles onto designated crystal planes{110}or{100}of ZIF-8[J].Chemistry of Materials,2013,25(9):1761-1768.
[13]Liyong Chen,Yan Peng,Hong Wang,et al.Synthesis of Au@ZIF-8 single-or multi-core-shell structures for photocatalysis[J].Chemical Communications,2014,50:8651-8654.
[14]乔学志.Au、Ag纳米粒子超粒子组装体/ZIF-8复合材料的制备及其用于VOCs的SERS检测[D].北京化工大学,2016.
[15]Jiating He,Ray Chin Chong Yap,Siew Yee Wong,et al.Controlled growth of a metal-organic framework on gold nanoparticles[J].CrystEngComm,2016,18:5262-5266.
[16]Yucheng Luo,Shiyan Fan,Wenqian Yu,et al.Fabrication of Au25(SG)18-ZIF-8 Nanocomposites:A facile strategy to position Au25(SG)18nanoclusters inside and outside ZIF-8[J].Advanced Materials,2018,30(6):1704576.
[17]Qihao Yang,Qiang Xu,Hai-Long Jiang.Metal-organic frameworks meet metal nanoparticles:synergistic effect for enhanced catalysis[J].Chemical Society Reviews,2017,46:4774-4808.
[18]Liangcan He,Yong Liu,Jingzhu Liu,et al.Core-shell noble-metal@metal-organic-framework nanoparticles with highly selective sensing property[J].Angewandte Chemie International Edition,2013,52(13):3741-3745.
[19]刘丽丽,台夕市,刘美芳,等.Au/MOF-5催化剂在三组分偶联反应中的催化性能[J].化工学报,2015,66(5):1738-1747.
[20]陈君,隆继兰.Au@Co/MIL-101的合成及其催化氧化肉桂醇的研究[J].广州化工,2017,16:47-49.
[21]王凯,徐力,陈恒泽,等.MIL-101限域Au纳米颗粒催化对硝基苯酚加氢反应[J].高等学校化学学报,2016,37(4):723-727.
[22]Shaozhou Li,Weina Zhang,Fengwei Huo.The structural and catalytic properties of nanoparticles@MOF composites:A case study of Au@ZIF-8 hybrid crystals[J].Physica E:Low-dimensional Systems and Nanostructures,2015,69:56-60.
[23]Hai-Long Jiang,Bo Liu,Tomoki Akita,et al.Au@ZIF-8:COOxidation over gold nanoparticles deposited to metal-organic framework[J].Journal of the American Chemical Society,2009,131(32):11302-11303.
[24]Guang Lu,Shaozhou Li,Zhen Guo,et al.Imparting functionality to a metal-organic framework material by controlled nanoparticle encapsulation[J].Nature Chemistry,2012,4(4):310-316.
[25]Min Hui Yap,Kam Loon Fow,George Zheng Chen.Synthesis and applications of MOF-derived porous nanostructures[J].Green Energy&Environment,2017(2):218-245.(上接第24页)
[26]Yiwei Li,Dongjuan Chen,Yifang Zhang,et al.High-throughput single cell multidrug resistance analysis with multifunctional gradients-customizing microfluidic device[J].Sensors&Actuators BChemical,2016,225:563-571.
[27]何柳.ZIF-8模板法合成纳米粒子及其性能研究[D].东北师范大学,2015.
[28]刘朋飞,张所瀛,杨祝红,等.MOF作模板制备多孔Au/CuxO催化剂及其CO氧化性能[J].化工学报,2016,67(6):2325-2331.
[29]Liu He,Lu Li,Tingting Wang,et al.Fabrication of Au/ZnOnanoparticles derived from ZIF-8 with visible light photocatalytic hydrogen production and degradation dye activities[J].Dalton Transactions,2014,43(45):16981-16985.
[30]代明秀.基于Au@ZIF-8光催化纳米等离子体感器研究[D].重庆大学,2017.
[31]Lei Wang,Tianjiao Meng,Yanwei Fan,et al.Electrochemical study of acetaminophen oxidation by gold nanoparticles supported on a leaf-like zeolitic imidazolate framework[J].Journal of Colloid and Interface Science,2018,524:1-7.
[2]Lei Chen,Fei Ji,Yong Xu,et al.High-yield seedless synthesis of triangular gold nanoplates through oxidative etching[J].Nano Letters,2014,14(12):7201-7206.
[3]Martin Prieto,Raul Arenal,Luc Henrard,et al.Morphological tunability of the plasmonic response:From hollow gold nanoparticles to gold nanorings[J].Journal of Physical Chemistry C,2014,118(49):28804-28811.
[4]Peter Priecel,Hammed Adekunle Salami,Romen Herrera Padilla,et al.Anisotropic gold nanoparticles:Preparation and applications in catalysis[J].Chinese Journal of Catalysis,2016,37(10):1619-1650.
[5]Daeha Seo,Choong Il Yoo,Im Sik Chung,et al.Shape adjustment between multiply twinned and single-crystalline polyhedral gold nanocrystals:Decahedra,icosahedra,and truncated tetrahedra[J].Journal of Physical Chemistry C,2008,112(7):2469-2475.
[6]Guangju Zhou,Yun Yang,Shuhua Han,et al.Growth of nanobipyramid by using large sized Au decahedra as seeds[J].ACSApplied Materials&Interfaces,2013,5(24):13340-13352.
[7]Sanele Nyembe,Siyasanga Mpelane,Poslet Shumbula,et al.Platonic gold nanocrystals:Formation of icosahedron and decahedron nanostructures through twining mechanism[J].Journal of Nanoscience&Nanotechnology,2016,16(9):1-6.
[8]Thi Tan Pham,Long Ngoc Le,Hoa Ngoc Nguyen,et al.Encapsulating gold nanoparticles in zeolitic imidazolate framework crystal for novel optical response[J].Polyhedron,2018,148:171-177.
[9]Hang Yin,Jungkyu Choi,Alex C.K.Yip.Anti-poisoning core-shell metal/ZIF-8 catalyst for selective alkene hydrogenation[J].Catalysis Today,2016,265:203-209.
[10]王凯.金属-有机框架材料固载Au、Pd的制备及其催化性能的研究[D].南昌大学,2017.
[11]黄金萍,凌红亚,李和兴.Au纳米粒子植入Zr-金属有机框架化合物(Zr-MOF)用于催化水介质中的A3-偶联反应[J].分子催化,2013,27(1):1-9.
[12]Zheng Li,Hua Chun Zeng.Surface and bulk integrations of single-layered Au or Ag nanoparticles onto designated crystal planes{110}or{100}of ZIF-8[J].Chemistry of Materials,2013,25(9):1761-1768.
[13]Liyong Chen,Yan Peng,Hong Wang,et al.Synthesis of Au@ZIF-8 single-or multi-core-shell structures for photocatalysis[J].Chemical Communications,2014,50:8651-8654.
[14]乔学志.Au、Ag纳米粒子超粒子组装体/ZIF-8复合材料的制备及其用于VOCs的SERS检测[D].北京化工大学,2016.
[15]Jiating He,Ray Chin Chong Yap,Siew Yee Wong,et al.Controlled growth of a metal-organic framework on gold nanoparticles[J].CrystEngComm,2016,18:5262-5266.
[16]Yucheng Luo,Shiyan Fan,Wenqian Yu,et al.Fabrication of Au25(SG)18-ZIF-8 Nanocomposites:A facile strategy to position Au25(SG)18nanoclusters inside and outside ZIF-8[J].Advanced Materials,2018,30(6):1704576.
[17]Qihao Yang,Qiang Xu,Hai-Long Jiang.Metal-organic frameworks meet metal nanoparticles:synergistic effect for enhanced catalysis[J].Chemical Society Reviews,2017,46:4774-4808.
[18]Liangcan He,Yong Liu,Jingzhu Liu,et al.Core-shell noble-metal@metal-organic-framework nanoparticles with highly selective sensing property[J].Angewandte Chemie International Edition,2013,52(13):3741-3745.
[19]刘丽丽,台夕市,刘美芳,等.Au/MOF-5催化剂在三组分偶联反应中的催化性能[J].化工学报,2015,66(5):1738-1747.
[20]陈君,隆继兰.Au@Co/MIL-101的合成及其催化氧化肉桂醇的研究[J].广州化工,2017,16:47-49.
[21]王凯,徐力,陈恒泽,等.MIL-101限域Au纳米颗粒催化对硝基苯酚加氢反应[J].高等学校化学学报,2016,37(4):723-727.
[22]Shaozhou Li,Weina Zhang,Fengwei Huo.The structural and catalytic properties of nanoparticles@MOF composites:A case study of Au@ZIF-8 hybrid crystals[J].Physica E:Low-dimensional Systems and Nanostructures,2015,69:56-60.
[23]Hai-Long Jiang,Bo Liu,Tomoki Akita,et al.Au@ZIF-8:COOxidation over gold nanoparticles deposited to metal-organic framework[J].Journal of the American Chemical Society,2009,131(32):11302-11303.
[24]Guang Lu,Shaozhou Li,Zhen Guo,et al.Imparting functionality to a metal-organic framework material by controlled nanoparticle encapsulation[J].Nature Chemistry,2012,4(4):310-316.
[25]Min Hui Yap,Kam Loon Fow,George Zheng Chen.Synthesis and applications of MOF-derived porous nanostructures[J].Green Energy&Environment,2017(2):218-245.(上接第24页)
[26]Yiwei Li,Dongjuan Chen,Yifang Zhang,et al.High-throughput single cell multidrug resistance analysis with multifunctional gradients-customizing microfluidic device[J].Sensors&Actuators BChemical,2016,225:563-571.
[27]何柳.ZIF-8模板法合成纳米粒子及其性能研究[D].东北师范大学,2015.
[28]刘朋飞,张所瀛,杨祝红,等.MOF作模板制备多孔Au/CuxO催化剂及其CO氧化性能[J].化工学报,2016,67(6):2325-2331.
[29]Liu He,Lu Li,Tingting Wang,et al.Fabrication of Au/ZnOnanoparticles derived from ZIF-8 with visible light photocatalytic hydrogen production and degradation dye activities[J].Dalton Transactions,2014,43(45):16981-16985.
[30]代明秀.基于Au@ZIF-8光催化纳米等离子体感器研究[D].重庆大学,2017.
[31]Lei Wang,Tianjiao Meng,Yanwei Fan,et al.Electrochemical study of acetaminophen oxidation by gold nanoparticles supported on a leaf-like zeolitic imidazolate framework[J].Journal of Colloid and Interface Science,2018,524:1-7.