《新型多孔碳基材料的複合設計與載硫機制研究》是鄒如強為項目負責人,北京大學為依託單位的面上項目。
基本介紹
- 中文名:新型多孔碳基材料的複合設計與載硫機制研究
- 項目類別 :面上項目
- 項目負責人:鄒如強
- 依託單位 :北京大學
科研成果,項目摘要,
科研成果
序號 | 標題 | 類型 | 作者 |
|---|---|---|---|
1 | Selective H2S/CO2 Separation by Metal-Organic Frameworks Based on Chemical-Physical Adsorption | 期刊論文 | Liu, Jia(#),Wei, Yajuan,Li, Peizhou,Zhao, Yanli(*),Zou, Ruqiang(*) |
2 | Metal-organic frameworks and their derived nanostructures for electrochemical energy storage and conversion | 期刊論文 | Xia, Wei(#)(*),Mahmood, Asif,Zou, Ruqiang(*),Xu, Qiang |
3 | Structural manipulation approaches towards enhanced sodium ionic conductivity in Na-rich antiperovskites | 期刊論文 | Wang, Yonggang(#),Wang, Qingfei,Liu, Zhenpu,Zhou, Zhengyang,Li, Shuai,Zhu, Jinlong,Zou, Ruqiang(*),Wang, Yingxia,Lin, Jianhua,Zhao, Yusheng |
4 | Earth-Abundant Nanomaterials for Oxygen Reduction | 期刊論文 | Xia, Wei(#),Mahmood, Asif,Liang, Zibin,Zou, Ruqiang(*),Guo, Shaojun(*) |
5 | A Triazole-Containing Metal-Organic Framework as a Highly Effective and Substrate Size-Dependent Catalyst for CO2 Conversion | 期刊論文 | Li, Pei-Zhou(#),Wang, Xiao-Jun,Liu, Jia,Lim, Jie Sheng,Zou, Ruqiang(*),Zhao, Yanli(*) |
6 | Metal-Organic Frameworks Derived Cobalt Phosphide Architecture Encapsulated into B/N Co-Doped Graphene Nanotubes for All pH Value Electrochemical Hydrogen Evolution | 期刊論文 | Tabassum, Hassina(#),Guo, Wenhan,Meng, Wei,Mahmood, Asif,Zhao, Ruo,Wang, Qingfei,Zou, Ruqiang(*) |
7 | A functional form-stable phase change composite with high efficiency electro-to-thermal energy conversion | 期刊論文 | Wu, Wenhao(#),Huang, Xinyu,Li, Kai,Yao, Ruimin,Chen, Renjie,Zou, Ruqiang(*) |
8 | Tailoring thermal properties via synergistic effect in a multifunctional phase change composite based on methyl stearate | 期刊論文 | Tabassum, Hassina,Huang, Xinyu,Chen, Renjie,Zou, Ruqiang |
9 | Heterogeneous Catalysis in Zeolites, Mesoporous Silica, and Metal-Organic Frameworks | 期刊論文 | Liang, Jie(#),Liang, Zibin,Zou, Ruqiang(*),Zhao, Yanli(*) |
10 | 一種新型複合相變蓄熱材料及其製備方法 | 專利 | 陳人傑,鄒如強 |
11 | Nanostructured Electrode Materials Derived from Metal-Organic Framework Xerogels for High-Energy-Density Asymmetric Supercapacitor | 期刊論文 | Mahmood, Asif,Zou, Ruqiang(*),Wang, Qingfei,Xia, Wei,Tabassum, Hassina,Qiu, Bin,Zhao, Ruo |
12 | Facile Synthesis of Ultrasmall CoS2 Nanoparticles within Thin N-Doped Porous Carbon Shell for High Performance Lithium-Ion Batteries | 期刊論文 | Wang, Qingfei(#),Zou, Ruqiang(*),Xia, Wei,Ma, Jin,Qiu, Bin,Mahmood, Asif,Zhao, Ruo,Yang, Yangyuchen,Xia, Dingguo,Xu, Qiang |
13 | 一種限域生長納米級配位聚合物的方法 | 專利 | 王習東,陳燕,馮英傑,鄒如強 |
14 | Functionalized Bimetallic Hydroxides Derived from Metal-Organic Frameworks for High-Performance Hybrid Supercapacitor with Exceptional Cycling Stability | 期刊論文 | Qu, Chong(#),Zhao, Bote,Jiao, Yang,Chen, Dongchang,Dai, Shuge,Deglee, Ben M.,Chen, Yu,Walton, Krista S.,Zou, Ruqiang(*),Liu, Meilin(*) |
15 | 一種石蠟-石墨泡沫複合定形相變材料及其製備方法 | 專利 | 陳良傑,鄒如強,劉振濮 |
16 | Covalent Organic Frameworks Formed with Two Types of Covalent Bonds Based on Orthogonal Reactions | 期刊論文 | Zeng, Yongfei(#),Zou, Ruyi,Luo, Zhong,Zhang, Huacheng,Yao, Xin,Ma, Xing,Zou, Ruqiang,Zhao, Yanli |
17 | Alkylated phase change composites for thermal energy storage based on surface-modified silica aerogels | 期刊論文 | Huang, Xinyu(#),Liu, Zhenpu,Xia, Wei,Zou, Ruqiang,Han, Ray P. S.(*) |
18 | Metal-Organic Framework-Derived Honeycomb-Like Open Porous Nanostructures as Precious-Metal-Free Catalysts for Highly Efficient Oxygen Electroreduction | 期刊論文 | Zhu, Qi-Long(#),Xia, Wei,Akita, Tomoki,Zou, Ruqiang(*),Xu, Qiang |
19 | Lanthanide contraction effects on the structures, thermostabilities, and CO2 adsorption and separation behaviors of isostructural lanthanide-organic frameworks | 期刊論文 | Mu, Weijun,Huang, Xing,Zhong, Ruiqin,Xia, Wei,Liu, Jia,Zou, Ruqiang(*) |
20 | Bimetallic Metal-Organic Frameworks: Probing the Lewis Acid Site for CO2 Conversion | 期刊論文 | Zou, Ruyi(#),Li, Pei-Zhou,Zeng, Yong-Fei,Liu, Jia,Zhao, Ruo,Duan, Hui,Luo, Zhong,Wang, Jin-Gui,Zou, Ruqiang(*),Zhao, Yanli(*) |
21 | 一種相變熱整流器及其製備方法 | 專利 | 陳人傑,鄒如強,姚銳敏 |
22 | Electro/photo to heat conversion system based on polyurethane embedded graphite foam | 期刊論文 | Chen, Renjie(#),Yao, Ruimin,Xia, Wei,Zou, Ruqiang(*) |
23 | 一種金屬有機骨架多孔材料及其製備方法 | 專利 | 夏威,鄒如強 |
24 | A metal-organic framework route to in situ encapsulation of Co@Co3O4@C core@bishell nanoparticles into a highly ordered porous carbon matrix for oxygen reduction | 期刊論文 | Xia, Wei(#),Zou, Ruqiang(*),An, Li,Xia, Dingguo,Guo, Shaojun |
25 | High-Performance Energy Storage and Conversion Materials Derived from a Single Metal Organic Framework/Graphene Aerogel Composite | 期刊論文 | Xia, Wei(#),Qu, Chong,Liang, Zibin,Zhao, Bote,Dai, Shuge,Qiu, Bin,Jiao, Yang,Zhang, Qiaobao,Huang, Xinyu,Guo, Wenhan,Dang, Dai,Zou, Ruqiang(*),Xia, Dingguo(*),Xu, Qiang(*),Liu, Meilin(*) |
26 | Highly dispersed Co-based Fischer-Tropsch synthesis catalysts from metal-organic frameworks | 期刊論文 | Qiu, Bin(#),Yang, Ce,Guo, Wenhan,Xu, Yao,Liang, Zibin,Ma, Ding(*),Zou, Ruqiang(*) |
27 | Nanoconfinement of phase change materials within carbon aerogels: phase transition behaviours and photo-to-thermal energy storage | 期刊論文 | Huang, Xinyu(#),Xia, Wei,Zou, Ruqiang(*) |
28 | A pore-expansion strategy to synthesize hierarchically porous carbon derived from metal-organic framework for enhanced oxygen reduction | 期刊論文 | Zhao, Ruo(#),Xia, Wei,Lin, Cong,Sun, Junliang,Mahmood, Asif,Wang, Qingfei,Qiu, Bin,Tabassum, Hassina,Zou, Ruqiang(*) |
29 | Well-defined carbon polyhedrons prepared from nano metal-organic frameworks for oxygen reduction | 期刊論文 | Xia, Wei(#),Zhu, Jinghan,Guo, Wenhan,An, Li,Xia, Dingguo,Zou, Ruqiang(*) |
30 | New challenge of metal-organic frameworks for high-efficient separation of hydrogen chloride toward clean hydrogen energy | 期刊論文 | Liu, Jia(#),Xia, Wei,Mu, Weijun,Li, Peizhou,Zhao, Yanli(*),Zou, Ruqiang(*) |
31 | Fabrication of Co3O4 nanoparticles in thin porous carbon shells from metal-organic frameworks for enhanced electrochemical performance | 期刊論文 | Qiu, Bin(#),Guo, Wenhan,Liang, Zibin,Xia, Wei,Gao, Song,Wang, Qingfei,Yu, Xiaofeng,Zhao, Ruo,Zou, Ruqiang(*) |
32 | Selective adsorption of CO2/CH4 and CO2/N-2 within a charged metal-organic framework | 期刊論文 | Kong, Lidan,Zou, Ruyi,Bi, Wenzhu,Zhong, Ruiqin,Mu, Weijun,Liu, Jia,Han, Ray P. S.,Zou, Ruqiang(*) |
33 | 國家“優秀青年科學基金”獲得者 | 科研獎勵 | 鄒如強 |
34 | Hierarchical Cobalt Hydroxide and B/N Co-Doped Graphene Nanohybrids Derived from Metal-Organic Frameworks for High Energy Density Asymmetric Supercapacitors | 期刊論文 | Tabassum, Hassina(#),Mahmood, Asif,Wang, Qingfei,Xia, Wei,Liang, Zibin,Qiu, Bin,Zhao, Ruo,Zou, Ruqiang(*) |
35 | 教育部“長江學者”青年學者 | 科研獎勵 | 鄒如強 |
36 | A luminescent Zr-based metal organic framework for sensing/capture of nitrobenzene and high-pressure separation of CH4/C2H6 | 期刊論文 | Zou, Ruyi(#),Ren, Xueling,Huang, Fang,Zhao, Yifang,Liu, Jia,Jing, Xiping,Liao, Fuhui,Wang, Yinxia,Lin, Jianhua,Zou, Ruqiang(*),Sun, Junliang |
37 | Clicked Isoreticular Metal-Organic Frameworks and Their High Performance in the Selective Capture and Separation of Large Organic Molecules | 期刊論文 | Li, Peizhou,Wang, Xiaojun,Tan, Siyu,Ang, Chungyen,Chen, Hongzhong,Liu, Jia,Zou, Ruqiang,Zhao, Yanli(*) |
38 | 國家“萬人計畫”青年拔尖人才 | 科研獎勵 | 鄒如強 |
39 | Hierarchical Heteroaggregation of Binary Metal-Organic Gels with Tunable Porosity and Mixed Valence Metal Sites for Removal of Dyes in Water | 期刊論文 | Mahmood, Asif(#),Xia, Wei,Mahmood, Nasir,Wang, Qingfei,Zou, Ruqiang(*) |
40 | A catalyst-free synthesis of B, N co-doped graphene nanostructures with tunable dimensions as highly efficient metal free dual electrocatalysts | 期刊論文 | Tabassum, Hassina(#),Zou, Ruqiang(*),Mahmood, Asif,Liang, Zibin,Guo, Shaojun(*) |
41 | Metal-Organic Framework-Based Nanomaterials for Electrocatalysis | 期刊論文 | Mahmood, Asif(#),Guo, Wenhan,Tabassum, Hassina,Zou, Ruqiang(*) |
項目摘要
以單質硫為正極、金屬鋰為負極的鋰硫電池以其高的理論比能量,原料硫廉價、環境友好的特性有望新一代動力電池。但是,由於硫單質導電性差,放電產物多硫化物易溶解耗散,從而導致電池活性物質利用率低,循環性能差,容量逐步衰減。目前的研究發現,通過硫正極的改性可以顯著地提高硫正極的導電率並抑制多硫化物的溶解流失,但是這些研究主要集中於材料製備方法和性能分析,對於載體材料的微觀結構和化學特性對整體性能的影響尚缺乏系統的研究。本項目擬設計、合成多種具有超高比表面積和大孔容的新型納米多孔碳材料,並以之為載體,製備碳-硫複合正極材料。利用實時原位同步輻射和先進的中子衍射技術研究並揭示材料的結構與電化學性能之間的關係,為研發高比容量鋰硫電池提供重要理論指導和實驗依據。該項研究將促進動力鋰離子電池在汽車領域的技術發展,對加快實現我國電動汽車的產業化發展和規模化套用將起到推動作用,具有積極和重要的現實意義。
