All Issue

2018 Vol.50, Issue 3 Preview Page
Preparation of Lignin-Silica Hybrid Composite by Using the Alkaline Digestion Liquor of Rice Husk

왕겨 알칼리 증해액을 활용한 리그닌 실리카 복합체 제조

Dong Sung Kim
,
Yong Joo Sung
김동성
,
성용주
Department of Biobased Materials, College of Agriculture and Life Science, Chungnam National University, Daejeon, 34134
충남대학교 농업생명과학대학 환경소재공학과
Corresponding author: E-Mail: yosung17@cnu.ac.kr
30 June 2018. pp. 86-93
PDF XML Citation
Abstract

The lignin-silica hybrid composites were prepared by using the black liquor of rice husk alkaline digestion. The application of acid to the black liquor resulted in the precipitation of the lignin-silica hybrid composites. The four pH conditions such as pH 8, pH 6, pH 4, pH 2 were applied for evaluating the effects of pH condition on the preparation of the lignin-silica hybrid composites. The lower pH condition resulted in the increase of the precipitation and the higher contents of lignin in the precipitate of the lignin-silica hybrid composite, especially at pH 2 condition. The analysis with FT-IR and TGA also showed the higher lignin contents of the lignin-silica hybrid composites prepared at pH 2 conditions. The micro-particles and micro pores of the lignin-silica hybrid composite prepared at pH 8 were not observed in the SEM images of the lignin-silica hybrid composites precipitated at pH 2, which might be caused by the higher portion of the combined lignin and the agglomeration of the lignin prepared at pH 2 condition.

Keywords
Lignin-silica hybrid composite
rice husk
alkaline digestion
black liquor
References

Literature Cited

1
F. G. Calvo-Flores, J. A. Dobado, J. Isac-Garcia and F. J. Martin-MartÍnez, Lignin and lignans as renewable raw materials: chemistry, Technology and Applications; 12-18, Chichester. John Wiley & Sons. (2015)

Calvo-Flores, F. G., Dobado, J. A., Isac-Garcia, J., and Martin-MartÍnez, F. J., Lignin and lignans as renewable raw materials: chemistry, Technology and Applications, John Wiley & Sons, Chichester, pp. 12-18 (2015).

2
S. Laurichesse and L. Avérous, Progress in Polymer Science, Chemical modification of lignins: Towards biobased polymers, 39(7); 1266-1290 (2014)

Laurichesse, S. and Avérous, L., Chemical modification of lignins: Towards biobased polymers, Progress in Polymer Science 39(7): 1266-1290 (2014).

10.1016/j.progpolymsci.2013.11.004
3
A. Vishtal and A. KraslawskI, Bioresources, Challenges in industrial applications of technical lignins, 6(3); 3547-3568 (2011)

Vishtal, A. and KraslawskI, A., Challenges in industrial applications of technical lignins, Bioresources 6(3):3547-3568 (2011).

4
S. Sahoo, M. O. Seydibeyoglu, A. K. Mohanty and M. Misra, Biomass and Bioenergy, Characterization of industrial lignins for their utilization in future value added applications, 35; 4230-4237 (2011)

Sahoo, S., Seydibeyoglu, M. O., Mohanty, A. K., and Misra, M., Characterization of industrial lignins for their utilization in future value added applications, Biomass and Bioenergy 35: 4230-4237 (2011).

10.1016/j.biombioe.2011.07.009
5
M. Kleinert and T. Barth, Chem. Eng. Technol, Phenols from lignin, 31(5); 736-745 (2008)

Kleinert, M. and Barth, T., Phenols from lignin, Chem. Eng. Technol 31(5):736-745 (2008).

10.1002/ceat.200800073
6
S. H. Ghaffar and M. Fan, International Journal of Adhesion & Adhesives, Lignin in straw and its applications as an adhesive, 48; 92-101 (2014)

Ghaffar, S. H. and Fan, M., Lignin in straw and its applications as an adhesive, International Journal of Adhesion & Adhesives 48: 92-101 (2014).

10.1016/j.ijadhadh.2013.09.001
7
S. S. Nair, S. Sharma, Y. Pu, Q. Sun, S. Pam, J. Y. Zhu, Y. Deng and A. J. Ragauskas, ChemSusChem, High shear homogenization of lignin to nanolignin and thermal stability of nanoligninpolyvinyl alcohol blends, 7; 3513-3520 (2014)

Nair, S. S., Sharma, S., Pu, Y., Sun, Q., Pam, S., Zhu, J. Y., Deng, Y., and Ragauskas, A. J., High shear homogenization of lignin to nanolignin and thermal stability of nanoligninpolyvinyl alcohol blends, ChemSusChem 7: 3513-3520 (2014).

10.1002/cssc.201402314
8
Y. Qian, Y. Deng, X. Qiu, H. Li and D. Yang, Green Chem, Formation of uniform colloidal spheres from lignin: a renewable resource recovered from pulping spent liquor, 16; 2156-2163 (2014)

Qian, Y., Deng, Y., Qiu, X., Li, H., and Yang, D., Formation of uniform colloidal spheres from lignin: a renewable resource recovered from pulping spent liquor, Green Chem. 16: 2156-2163 (2014).

10.1039/c3gc42131g
9
T. Wu and M. Chu, J. Appl. Polym. Sci, Preparation and characterization of thermoplastic vulcanizate/silica nanocomposites, 98; 2058-2063 (2005)

Wu, T. and Chu, M., Preparation and characterization of thermoplastic vulcanizate/silica nanocomposites, J. Appl. Polym. Sci. 98: 2058-2063 (2005).

10.1002/app.22406
10
L. Klapiszewski, T. J. Szalaty, J. Zdarta and T. Jesionowski, Physicochem. Probl. Miner. Process, Activated lignin and aminosilane-garfted silica as precursors in hybrid material production, 52(1); 459-478 (2016)

Klapiszewski, L., Szalaty, T. J., Zdarta, J., and Jesionowski, T., Activated lignin and aminosilane-garfted silica as precursors in hybrid material production, Physicochem. Probl. Miner. Process. 52(1):459-478 (2016).

11
W. Xiong, D. Yang, R. Zhong, Y. Li, H. Zhou and X. Qiu, Industrial Crops and Products, Preparation of lignin-based silica composite submicron particles from alkali lignin and sodium silicate in aqueous solution using a direct precipitation method, 74; 285-292 (2015)

Xiong, W., Yang, D., Zhong, R., Li, Y., Zhou, H., and Qiu, X., Preparation of lignin-based silica composite submicron particles from alkali lignin and sodium silicate in aqueous solution using a direct precipitation method, Industrial Crops and Products 74:285-292 (2015).

10.1016/j.indcrop.2015.05.021
12
H. M. Kim, D. S. Kim, Y. J. Sung, Y. S. Park and Y-G. Seo, Journal of Korea TAPPI, Study of the precipitation of silica from black liquor of rice Husk alkine digestion, 49(4); 143-149 (2017)

Kim, H. M., Kim, D. S., Sung, Y. J., Park, Y. S., and Seo, Y-G., Study of the precipitation of silica from black liquor of rice Husk alkine digestion, Journal of Korea TAPPI 49(4):143- 149 (2017).

10.7584/jktappi.2017.08.49.4.143
13
X. Zhang, Z. Zhao, G. Ran, Y. Liu, S. Liu, B. Zhou and Z. Wang, Powder Technology, Synthesis of lignin-modified silica nanoparticles from black liquor of rice straw pulping, 246; 664-668 (2013)

Zhang, X., Zhao, Z., Ran, G., Liu, Y., Liu, S., Zhou, B., and Wang, Z., Synthesis of lignin- modified silica nanoparticles from black liquor of rice straw pulping, Powder Technology 246:664-668 (2013).

10.1016/j.powtec.2013.06.034
14
G. Telysheva, T. Dizhbite, D. Evtuguin, N. Mironova-Ulmane, G. Lebedeva and A. Andersone, Scripta Materialia, Design of siliceous lignins: novel organic/inorganic hybrid sorbent materials, 60(8); 687-690 (2009)

Telysheva, G., Dizhbite, T., Evtuguin, D., Mironova-Ulmane, N., Lebedeva, G., and Andersone, A., Design of siliceous lignins: novel organic/inorganic hybrid sorbent materials, Scripta Materialia 60(8):687-690 (2009).

10.1016/j.scriptamat.2008.12.051
15
S. Sequeira, D. V. Evtuguin, I. Portugal and A. P. Esculcas, Materials Science and Engineering, Synthesis and characterisation of cellulose/silica hybrids obtained by heteropoly acid catalysed sol-gel process, C 27(1); 172-179 (2007)

Sequeira, S., Evtuguin, D. V., Portugal, I., and Esculcas, A. P., Synthesis and characterisation of cellulose/silica hybrids obtained by heteropoly acid catalysed sol-gel process, Materials Science and Engineering: C 27(1):172- 179 (2007).

10.1016/j.msec.2006.04.007
16
B. Strzemiecka, L. Klapiszewski, A. Jamrozik, T. J. Szalaty, D. Matykiewicz, T. Sterzynski, A. Voelkel and T. Jesionowski, Materials, Physicochemical characterization of functional lignin-silica hybrid fillers for potential application in abrasive tools, 9(7); 517-530 (2016)

Strzemiecka, B., Klapiszewski, L., Jamrozik, A., Szalaty, T. J., Matykiewicz, D., Sterzynski, T., Voelkel, A., and Jesionowski, T., Physicochemical characterization of functional lignin-silica hybrid fillers for potential application in abrasive tools, Materials 9(7):517- 530 (2016).

10.3390/ma9070517
17
X. Wang, Y. Guo, J. Zhou and G. Sun, RSC Advances, Structural changes of poplar wood lignin after supercritical pretreatment using carbon dioxide and ethanol-water as co-solvents, 7(14); 8314-8322 (2017)

Wang, X., Guo, Y., Zhou, J., and Sun, G., Structural changes of poplar wood lignin after supercritical pretreatment using carbon dioxide and ethanol-water as co-solvents, RSC Advances 7(14):8314-8322 (2017).

10.1039/c6ra26122a
18
H. Yang, R. Yan, H. Chen, D. H. Lee and C. Zheng, Fuel, Characteristics of hemicellulose, cellulose and lignin pyrolysis, 86(12-13); 1781-1788 (2007)

Yang, H., Yan, R., Chen, H., Lee, D. H., and Zheng, C., Characteristics of hemicellulose, cellulose and lignin pyrolysis. Fuel 86(12-13):1781-1788 (2007).

10.1016/j.fuel.2006.12.013
Information
  • Publisher :Korea Technical Association of The Pulp and Paper Industry
  • Publisher(Ko) :한국펄프종이공학회
  • Journal Title :Journal of Korea TAPPI
  • Journal Title(Ko) :펄프종이기술
  • Volume : 50
  • No :3
  • Pages :86-93
  • Received Date : 2018-06-22
  • Revised Date : 2018-06-27
  • Accepted Date : 2018-06-28
  • DOI :https://doi.org/10.7584/JKTAPPI.2018.06.50.3.86
Journal Informaiton Journal of Korea TAPPI Journal of Korea TAPPI
Online Submission
  • scopus
  • NRF
  • KOFST
  • crossref crossmark
  • crossref cited-by
  • crosscheck
  • orcid
Journal Informaiton Journal Informaiton - close