VSC Adsorption Capability of Layered Double Hydroxide Containing Iron

Yoshiyuki Yokogawa; Shota Namba; Hiroya Sano; Shota Namba; Kazuo Fujii; Yuki Morita; M. Hotta; Yutaka Doi

doi:10.4028/www.scientific.net/JBBBE.26.93

Paper Titles

Fabrication of Bionic Linear Actuator and Application Study Based on 3D Printing
p.13

Foot Morphological Difference between Habitually Unshod Runners and Shod Runners through Inverse Modelling
p.19

Determining the Optimum Material for an Endodontic Prefabricated Parallel Post Using a Sub-Problem Approximation Method
p.28

Investigating Effects of Losing Fluid on Nonlinear Structural Behavior of Rabbit ACL
p.45

Degenerative vs Rigidity on Mitral Valve Leaflet Using Fluid Structure Interaction (FSI) Model
p.60

PDMS Surface Modification Using Biomachining Method for Biomedical Application
p.66

FTIR Investigation of Rotational Spectra and Structural Change due to Deuterium Exchange in Bio-Molecule
p.73

Layered Ripples Covered Pyramidal Structures Formed on 316L Stainless Steel by Femtosecond Laser Processing
p.84

VSC Adsorption Capability of Layered Double Hydroxide Containing Iron
p.93

HomeJournal of Biomimetics, Biomaterials and...Journal of Biomimetics, Biomaterials and...VSC Adsorption Capability of Layered Double...

VSC Adsorption Capability of Layered Double Hydroxide Containing Iron

Abstract:

Most etiology of bad breath is often concerned with gram-negative anaerobic bacteri, and pharmacotherpy using pharmaceutical drugs should be effective but limited, because bacteria at deep periodontal pocket may be sterilized but cannot be washed out and the malodorous compounds remain. The absorbents for the malodorous compound such as volatile sulfur compounds (VSC), hydrogen sulfide (H₂S), are expected to prevent the teeth from decaying and peiodontics disease. The VSC adsorption capabilities of layered double hydroxides, of which composition is A_1-xB_x(OH)₂C_x/n·mH₂O, where A and B are Mg and Fe ions, and C are carbonate (CO₃^2- : MgFe HTCO₃) and chlorine (Cl ^- : MgFe HTCl) ions in aqueous medium was studied by GC/FPD. The concentration of H₂S rapidly decrease to less than 15% for first 1 hours of soaking in H2S water and fell to 0% in 4-5 h when the MgFe HTCO₃ and MgFe HTCl were used. The iron ion was not detected in the H₂S water after soaking for 18 hours.The MgFe HTCO₃ and MgFe HTCl are expected to be likely adsorbent for the fast removal of VSC from the mouth.

You might also be interested in these eBooks

Journal of Biomimetics, Biomaterials and Biomedical Engineering Vol. 26

View Preview

Info:

Periodical:

Journal of Biomimetics, Biomaterials and Biomedical Engineering (Volume 26)

Pages:

93-96

DOI:

https://doi.org/10.4028/www.scientific.net/JBBBE.26.93

Citation:

Cite this paper

Online since:

February 2016

Authors:

Yoshiyuki Yokogawa, Shota Namba, Hiroya Sano, Shota Namba, Kazuo Fujii, Yuki Morita, M. Hotta, Yutaka Doi

Keywords:

Adsorption, GC, Hydrotalcite, Iron, VSC

Export:

RIS, BibTeX

Price:

Permissions CCC:

Request Permissions

Permissions PLS:

Request Permissions

Сopyright:

Citation:

References

[1] S.S. Socransky, A.D. Haffajee, M.A. Cugini, C. Smith, R.L. Kent Jr, J. Clin. Perodontol, 25 (1998) 134-144.

Google Scholar

[2] B.L. Armstrong, M.L. Sensat and J.L. Stoltenberg, J. Dent. Hygiene, 84 (2010) 65-74.

Google Scholar

[3] H. Yamamoto, Periodontal Antibiotic Therapy, 1 st ed., Quintessence Pub. Co., Tokyo, 2012, pp.79-97.

Google Scholar

[4] Y. Yokogawa, H. Sano, and I. Kishida, J. Ceram. Soc. Jpn, 121 (2013) 788-791.

Google Scholar

[5] G. Fetter, M.T. Olguin, P. Bosch, V.H. Lara and S. Bulbulian, J. Radioanal. Nucl. Chem., 241 (1999) 595.

Google Scholar

[6] J. Orthman, H.Y. Zhu and G.Q. Lu, Separation and Purification Tech., 31 (2003) 53.

Google Scholar

[7] Y. Yokogawa, Y. Yagi, H. Sano, A. Nakamura, I. Kishida, Key Eng. Mater., 529-530 (2013) 650-53.

Google Scholar

[8] Y. Yokogawa, H. Sano, S. Namba, K. Fujii, Y. Morita, M. Hotta and Y. Doi, Key Eng. Mater., 631 (2014) 215.

Google Scholar

[9] K. Fujii, Y. Hasegawa, Y. Murakami, Y. Doi, Y. Yokogawa, M. Hotta, Jpn.J. Conserv. Dent., 57 (2014) 229.

Google Scholar

[10] F. Cavani, F. Trifirò and A. Vaccari, Catal. Today, 11 (1991), 173.

Google Scholar

[11] C.J. Serna, J.L. Rendon and J.E. Iglesias, Clays and Clay Miner., 25 (1977) 384.

Google Scholar