Porous Carbon Monoliths Made from Cellulose and Starch

被引:4
作者
Klepel, Olaf [1 ]
Danneberg, Nina [2 ]
机构
[1] Brandenburg Univ Technol Cottbus Senftenberg, Inst Mat Chem, Univ Pl 1, D-01968 Senftenberg, Germany
[2] Brandenburg Univ Technol Cottbus Senftenberg, Fac Mech Engn Elect & Energy Syst, Univ Pl 1, D-01968 Senftenberg, Germany
来源
C-JOURNAL OF CARBON RESEARCH | 2020年 / 6卷 / 02期
关键词
porous carbon monoliths; cellulose; starch; fracture strength; TEMPLATE; CONCRETE; SYSTEMS;
D O I
10.3390/c6020032
中图分类号
T [工业技术];
学科分类号
08 ;
摘要
Porous carbon monoliths can be used as key components in a variety of applications, such as energy storage, adsorption and catalysis. The preparation of porous carbon monoliths suffers from several limitations, e.g., time-consuming synthesis steps, the use of hazardous chemicals, limited porosity or mechanical stability. This paper describes the investigation of a simple synthesis route to produce porous carbon monoliths from sustainable carbon precursors. Mixtures from different kinds of cellulose and starch, respectively, have been used as the carbon precursor. Fundamental features of porous monoliths, i.e., the porosity and the mechanic stability, respectively, have been investigated in dependence on the composition of the precursor mixtures. First attempts to explain the observed behavior have already been made.
引用
收藏
页数:11
相关论文
共 25 条
[1]   Generation of hierarchical meso- and macroporous carbon from mesophase pitch by spinodal decomposition using polymer templates [J].
Adelhelm, Philipp ;
Hu, Yong-Sheng ;
Chuenchom, Laemthong ;
Antonietti, Markus ;
Smarsly, Bernd M. ;
Maier, Joachim .
ADVANCED MATERIALS, 2007, 19 (22) :4012-+
[2]   Carbons as supports for industrial precious metal catalysts [J].
Auer, E ;
Freund, A ;
Pietsch, J ;
Tacke, T .
APPLIED CATALYSIS A-GENERAL, 1998, 173 (02) :259-271
[3]   Highly dense cellulose acetate specimens with superior mechanical properties produced by fused filament fabrication [J].
Boehler, Stefan ;
Bartel, Melanie ;
Bohn, Andreas ;
Jacob, Ron ;
Ganster, Johannes ;
Buesse, Thomas ;
Balko, Jens .
POLYMER, 2020, 194
[4]   Starbons: New starch-derived mesoporous carbonaceous materials with tunable properties [J].
Budarin, Vitaly ;
Clark, James H. ;
Hardy, Jeffrey J. E. ;
Luque, Rafael ;
Milkowski, Krzysztof ;
Tavener, Stewart J. ;
Wilson, Ashley J. .
ANGEWANDTE CHEMIE-INTERNATIONAL EDITION, 2006, 45 (23) :3782-3786
[5]   Porous concrete as a template for the synthesis of porous carbon materials [J].
Guenther, David ;
Beckmann, Jens ;
Schoeneich, Michael ;
Schmidt, Peer ;
Klepel, Olaf .
CARBON, 2012, 50 (08) :3096-3098
[6]   Characterization of porous graphitic monoliths from pyrolyzed wood [J].
Gutierrez-Pardo, A. ;
Ramirez-Rico, J. ;
de Arellano-Lopez, A. R. ;
Martinez-Fernandez, J. .
JOURNAL OF MATERIALS SCIENCE, 2014, 49 (22) :7688-7696
[7]   Porous carbon monoliths with pore sizes adjustable between 10 nm and 2 μm prepared by phase separation - New insights in the relation between synthesis composition and resulting structure [J].
Juhl, Anika C. ;
Elverfeldt, Carl-Philipp ;
Hoffmann, Frank ;
Froeba, Michael .
MICROPOROUS AND MESOPOROUS MATERIALS, 2018, 255 :271-280
[8]  
Kamm B., 2006, Biorefineries - industrial processes and products : status quo and future directions
[9]   Gelation and retrogradation of concentrated starch systems .1. Gelation [J].
Keetels, CJAM ;
vanVliet, T ;
Walstra, P .
FOOD HYDROCOLLOIDS, 1996, 10 (03) :343-353
[10]   Attempts to design porous carbon monoliths using porous concrete as a template - Part II: Some aspects of the pore formation mechanism [J].
Klepel, Olaf ;
Taubert, Michael .
MICROPOROUS AND MESOPOROUS MATERIALS, 2019, 280 :243-247
123