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毕业论文网 > 毕业论文 > 化学化工与生命科学类 > 化学工程与工艺 > 正文

聚离子液体衍生多孔碳材料的制备及其对CO2吸附性能研究毕业论文

 2022-01-18 21:57:01  

论文总字数:22262字

摘 要

随着全球工业发展,化石燃料的大量使用使得CO2的排放量不断增加,全球温室效应愈加严重。氮掺杂多孔碳材料比表面积大、孔结构易调整,在CO2吸附领域具有较好的应用前景。但是,在制备多孔碳材料过程中,传统碳源会大量蒸发或分解为气体产物,产率较低。通过直接高温焙烧聚离子液体能够高效制备出氮掺杂多孔碳材料,对CO2捕集具有重要研究意义。

本文报道了一种以咪唑基聚离子液体(PILA)为理想碳源,醋酸锌(Zn(Ac)2)为模板制备富氮多孔碳纳米片(NDPC)的方法。在热解过程中,不同Zn(Ac)2的加入量可以调节多孔碳纳米片的孔结构。当Zn(Ac)2/PILA的质量比x大于1时,NDPC-x出现分级多孔结构(微孔/中孔),否则为微孔结构。此外,所制得的NDPC-x具有比表面积大(1008-1356m2·g−1)以及N含量高(4.90-7.04wt .%)的优点。在25°C和1.0 bar下,NDPC-1的CO2吸附量最高为56.74cm3·g−1,是PILA未添加模板制得NCA的2.58倍。这主要是由于其较大的比表面积(1356m2·g−1)、相对较高的N含量(6.48wt .%)和微孔/中孔的协同效应。

关键字:聚离子液体 醋酸锌 氮掺杂多孔碳材料 CO2吸附

Preparation and CO2 Adsorption Performance of Porous Carbon Material derived for Imidazolium poly(ionic liquids)

Abstract

With the development of global industry, the extensive use of fossil fuels has increased the emissions of CO2, and Greenhouse Effect of the world has become more and more serious. Nitrogen-doped porous carbon materials have large specific surface area and easy adjustment of pore structure, so they have a good application prospect in the field of CO2 adsorption. However, in the prepartion process of porous carbon materials, the traditional carbon source will evaporate or decompose into gas products, and lide to low yield . Nitrogen-doped precursor carbon materials can be prepared efficiently by calcination of poly(ionic liquids) at high temperature directly, which is of great significance for CO2 trapping.

In this paper, a method for the preparation of nitrogen-rich porous carbon nanoparticles (NDPC) with imidazolium-bised poly(ionic liquids) (PILs) as ideal carbon source and zinc acetate (Zn(Ac)2) as template has be reported. In the pyrolysis process, the pore structure of porous carbon nanosheets could be adjusted by different amount of Zn(Ac)2. When the mass ratio of Zn(Ac)2/PILA is greater than 1, the hierarchically porous structure (micropores/mesoporous) appears in NDPC-x, otherwise it is microporous structure. In addition, the prepared NDPC-x has the advantages of large specific surface areas (1008-1356m2·g-1) and high N contents (4.90-7.04wt .%). At 25°C and 1.0bar, the highest CO2 adsorption capacity of NDPC-1 was 56.74cm3·g−1, which was 2.58 times higher that of NCA prepared by PILA without template. This is mainly due to the large specific surface areas (1356m2·g-1), relatively high N contents (6.48wt .%) and synergistic effect of micropores/mesopores.

Key words: poly(ionic liquid);zinc acetate ; nitrogen dopingporous carbon material,;CO2 adsorption

目 录

摘 要 I

Abstract II

第一章 文献综述 1

1.1 CO2捕集技术研究进展 1

1.1.1 CO2排放现状 1

1.1.2 CO2捕集技术 1

1.2 CO2吸附材料 2

1.3 聚离子液体 2

1.3.1 离子液体 2

1.3.2 聚离子液体 3

1.4 聚离子液体衍生多孔碳材料 5

1.5 研究内容及意义 7

第二章 实验部分 9

2.1 实验试剂及仪器 9

2.1.1 实验试剂 9

2.1.2 实验仪器 9

2.2离子液体衍生多孔碳材料制备 10

2.2.1 离子液体单体[C4DVIM]Br2的合成 10

2.2.2 聚离子液体材料的合成 10

2.2.3 氮掺杂多孔碳材料的合成 11

2.2.4 碳材料表征 11

2.2.5 CO2吸附测量测定 12

第三章 结果及讨论 13

3.1 SEM与TEM分析 13

3.2 FT-IR光谱分析 14

3.3 XRD分析 14

3.4 Raman光谱分析 15

3.5 N2吸附-脱附测试分析 16

3.6 元素分析 18

3.7 XPS分析 19

3.8 CO2吸附等温线 20

3.9 CO2吸附循环性能研究 21

第四章 结论与展望 23

4.1结论 23

4.2展望 23

参考文献 24

致谢 28

  1. 文献综述

1.1 CO2捕集技术研究进展

1.1.1 CO2排放现状

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