魏璟婧

2011.9-2015.8，巴黎第六大學，物理化學與分析化學，理學博士學位

2009.9-2012.6，山東大學，無機化學，理學碩士學位

2005.9-2009.6，山東師範大學，化學，理學學士學位

2017.5至今，山東大學化學與化工學院

韓國基礎科學研究院，博士後

巴黎第六大學，博士後

工業催化技術 /2019-2020 /春學期 /36課時 /2.0學分 /0220063

物理化學 /2018-2019 /春學期 /52課時 /3.0學分 /sd01131680

物理化學 /2018-2019 /秋學期 /52課時 /3.0學分 /sd01131680

工業催化技術 /2017-2018 /春學期 /36課時 /2.0學分 /0220063

工業催化技術 /2018-2019 /春學期 /36課時 /2.0學分 /0220063

納米粒子超晶格的設計合成及集成性能研究

納米表面化學

自組裝過程及動態組裝體的設計

基於層層自組裝技術構築納米顆粒超晶格異質結構的研究, 2019/08/16-2023/12/31

基於有機-無機納米結構表面活性劑的製備及其在可驅動液滴上的套用, 2019/04/26-2022/06/30

新型綠色高分子溴系阻燃劑溴化SBS關鍵製備技術及產業化, 2019/12/09-2021/12/31

聚氨酯專用阻燃劑（RK-9170）合成新工藝, 2019/05/06-2021/05/05

二元納米粒子超晶材料的可控制備及協同催化性能研究, 2018/04/01-2021/07/01

二元納米粒子超晶體材料的組裝體結構控制及集成性能研究, 2017/08/17-2020/12/31

[1] 楊志傑 ,魏慧英 ,楊延釗 ,魏璟婧 and王舒平. Hierarchical Sheet？on？Sphere Heterostructures as Supports for Metal Nanoparticles: A Robust Catalyst System.catalysis letters,2019.

[2] 楊志傑 ,魏慧英 ,楊延釗 ,魏璟婧 and張文迪. Synthesis of catalytically active bimetallic nanoparticles within solution-processable metal– organic-framework scaffolds.CrystEngComm.,2019.

[3] 楊志傑 ,楊延釗 ,魏璟婧 and王舒平. A one-pot general strategy towards the synthesis of core-satellite suprastructures.CrystalEngComm,21,1335,2019.

[4] 魏璟婧 Influence of Cracks on the Optical Properties of Silver Nanocrystals Supracrystal Films.ACS nano,2019.

[5] 魏璟婧 ,魏慧英 ,楊延釗 and任雨晴. Pretreatment Effect on Ceria-Supported Gold Nanocatalysts for CO Oxidation: Importance of the Gold-Ceria Interaction.Energy Technology,2018.

[6] 魏璟婧 ,魏慧英 ,楊延釗 and王瑞雪. Crystal plane dependent dopant migration that boosts catalytic oxidation.CATALYSIS SCIENCE & TECHNOLOGY,2018.

[7] 魏璟婧 ,郭今心 ,楊延釗 and唐珂. Insight Investigation of Active Palladium Surface Sites in Palladium-Ceria Catalysts for NO plus CO Reaction.ACS applied materials and interfaces,2018.

[8] 魏璟婧. Influence of Cracks on the Optical Properties of Silver Nanocrystals Supracrystal Films.ACS nano,2019.

[9] 楊志傑 ,魏慧英 ,楊延釗 ,魏璟婧 and仉鳳華. Buckling of Two-Dimensional Colloidal Nanoplatelets in Confined Space To Design Heterogeneous Catalysts.Chemistry of Materials,31,3812,2019.

[10] 楊志傑 ,魏慧英 ,楊延釗 ,魏璟婧 and仉鳳華. Buckling of Two-Dimensional Colloidal Nanoplatelets in Confined Space To Design Heterogeneous Catalysts.Chemistry of Materials,31,3812,2019.

[11] 楊志傑 ,魏璟婧 Systems of mechanized and reactive droplets powered by multi-responsive surfactants.Nature,2018.

[12] 楊志傑 ,魏璟婧 Interference-like patterns of static magnetic fields imprinted into polymer/nanoparticle composites.NATURE COMMUNICATIONS,2017.

[13] 魏璟婧 ,魏慧英 ,楊延釗 and王瑞雪. Crystal plane dependent dopant migration that boosts catalytic oxidation.CATALYSIS SCIENCE & TECHNOLOGY,8,6084,2018.

[14] 魏璟婧 ,郭今心 Copper doped ceria nanospheres: surface defects promoted catalytic activity and a versatile approach .journal of materials chemistry A,2014.

[15] 魏璟婧 Ligand Exchange Governs the Crystal Structures in Binary Nanocrystal Superlattices.Journal of the American Chemical Society,2015.

[16] 魏璟婧 Surface Plasmon Resonance Properties of Silver Nanocrystals Differing in Size and Coating Agent Ordered in 3D Supracrystals.Chemistry of Materials,2015.

[17] 魏璟婧 Ag Nanocrystals: 1. Effect of Ligands on Plasmonic Properties.JOURNAL OF PHYSICAL CHEMISTRY B,2014.

[18] 魏璟婧 Solvent-Mediated Crystallization of Nanocrystal 3D Assemblies of Silver Nanocrystals: Unexpected Super lattice Ripening .Chemistry of Materials,2016.

[19] 魏璟婧 Collective Surface Plasmon Resonances in Two-Dimensional Assemblies of Au and Ag Nanocrystals: Experiments and Discrete Dipole Approximation Simulation .JOURNAL OF PHYSICAL CHEMISTRY C,2016.

[20] 魏璟婧. Influence of Cracks on the Optical Properties of Silver Nanocrystals Supracrystal Films.ACS nano,2019.

[21] 楊志傑 ,魏慧英 ,楊延釗 ,魏璟婧 and仉鳳華. Buckling of Two-Dimensional Colloidal Nanoplatelets in Confined Space To Design Heterogeneous Catalysts.Chemistry of Materials,31,3812,2019.

[22] 楊志傑 ,魏慧英 ,楊延釗 ,魏璟婧 and仉鳳華. Buckling of Two-Dimensional Colloidal Nanoplatelets in Confined Space To Design Heterogeneous Catalysts.Chemistry of Materials,31,3812,2019.

[23] 魏璟婧 ,郭今心 ,楊延釗 and唐珂. Insight Investigation of Active Palladium Surface Sites in Palladium-Ceria Catalysts for NO plus CO Reaction.ACS applied materials and interfaces,2018.

[24] 魏璟婧 ,魏慧英 ,楊延釗 and任雨晴. Pretreatment Effect on Ceria-Supported Gold Nanocatalysts for CO Oxidation: Importance of the Gold-Ceria Interaction.Energy Technology,2018.

[25] 魏璟婧 ,魏慧英 ,楊延釗 and王瑞雪. Crystal plane dependent dopant migration that boosts catalytic oxidation.CATALYSIS SCIENCE & TECHNOLOGY,8,6084,2018.

[26] 魏璟婧 and楊志傑. Systems of mechanized and reactive droplets powered by multi-responsive surfactants.Nature,2018.

[27] 魏璟婧 and楊志傑. Interference-like patterns of static magnetic fields imprinted into polymer/nanoparticle composites.NATURE COMMUNICATIONS,2017.

[28] 魏璟婧. Surface Plasmon Resonance Properties of Silver Nanocrystals Differing in Size and Coating Agent Ordered in 3D Supracrystals.Chemistry of Materials,2015.

[29] 郭今心 and魏璟婧. Copper doped ceria nanospheres: surface defects promoted catalytic activity and a versatile approach .journal of materials chemistry A,2014.

[30] 魏璟婧. Ag Nanocrystals: 1. Effect of Ligands on Plasmonic Properties.JOURNAL OF PHYSICAL CHEMISTRY B,2014.

[31] 魏璟婧. Solvent-Mediated Crystallization of Nanocrystal 3D Assemblies of Silver Nanocrystals: Unexpected Super lattice Ripening .Chemistry of Materials,2016.

[32] 魏璟婧. Collective Surface Plasmon Resonances in Two-Dimensional Assemblies of Au and Ag Nanocrystals: Experiments and Discrete Dipole Approximation Simulation .JOURNAL OF PHYSICAL CHEMISTRY C,2016.

[33] 魏璟婧. Ligand Exchange Governs the Crystal Structures in Binary Nanocrystal Superlattices.Journal of the American Chemical Society,2015.

[34] 魏璟婧. Influence of Cracks on the Optical Properties of Silver Nanocrystals Supracrystal Films.ACS nano,2019.