Synthesis and characterization of nanofibrous sodium manganese oxide with a 2 × 4 tunnel structure

Synthesis and characterization of nanofibrous sodium manganese oxide with a 2 × 4 tunnel structure

Sodium manganese oxide octahedral molecular sieves with a 2 × 4 tunnel structure (Na-2 × 4) have been hydrothermally synthesized from Na - birnessite materials at low temperatures and pressures. The synthetic template materials, the pH value of the medium, and the autoclaved temperature are critical...

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Main Authors: Xia, G. G., Tong, W., Tolentino, E. N., Duan, N. G., Brock, S. L., Wang, J. Y., Suib, S. L., Ressler, T.
Format: text
Published: Animo Repository 2001
Subjects:
Oxygen
Heme
Proton exchange membrane fuel cells
Cathodes
Chemistry
Online Access:https://animorepository.dlsu.edu.ph/faculty_research/3859
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Institution: De La Salle University
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spelling oai:animorepository.dlsu.edu.ph:faculty_research-43372021-05-17T02:37:42Z Synthesis and characterization of nanofibrous sodium manganese oxide with a 2 × 4 tunnel structure Xia, G. G. Tong, W. Tolentino, E. N. Duan, N. G. Brock, S. L. Wang, J. Y. Suib, S. L. Ressler, T. Sodium manganese oxide octahedral molecular sieves with a 2 × 4 tunnel structure (Na-2 × 4) have been hydrothermally synthesized from Na - birnessite materials at low temperatures and pressures. The synthetic template materials, the pH value of the medium, and the autoclaved temperature are critical in the synthesis. Sodium salts, such as NaCl, NaNO3, and Na2SO4, are good templates for Na-2 × 4. In strong basic solution or below 160°C, Na - birnessite does not transform to the Na-2 × 4 structure. TEM images show the synthesized Na-2 × 4 is made up of thin slablike single crystals elongated along the b axis. The formula of Na-2 × 4 can be written as Na0.33Mn0.333+Mn0.674+O2·xH2O, and it is monoclinic with space group C2/m. The unit cell parameters (a, b, c, and β) for Na-2 × 4 are 14.434(5) Å, 2.849(7) Å, 23.976(6) Å, and 98.18°, respectively. These data for Na-2 × 4 are slightly different from the data for Rb-2 × 4 synthesized under high pressure and high temperature, which were reported by Rziha et al. (Eur. J. Miner. 1996, 8, 1155-1161). The surface area of Na-2 × 4 is about 57 m2/g. Na-2 × 4 materials are thermally stable up to 450°C as indicated by TGA and TPD data. 2001-09-26T07:00:00Z text https://animorepository.dlsu.edu.ph/faculty_research/3859 info:doi/10.1021/cm000777r Faculty Research Work Animo Repository Oxygen Heme Proton exchange membrane fuel cells Cathodes Chemistry
institution De La Salle University
building De La Salle University Library
continent Asia
country Philippines
Philippines
content_provider De La Salle University Library
collection DLSU Institutional Repository
topic Oxygen
Heme
Proton exchange membrane fuel cells
Cathodes
Chemistry
spellingShingle Oxygen
Heme
Proton exchange membrane fuel cells
Cathodes
Chemistry
Xia, G. G.
Tong, W.
Tolentino, E. N.
Duan, N. G.
Brock, S. L.
Wang, J. Y.
Suib, S. L.
Ressler, T.
Synthesis and characterization of nanofibrous sodium manganese oxide with a 2 × 4 tunnel structure
description Sodium manganese oxide octahedral molecular sieves with a 2 × 4 tunnel structure (Na-2 × 4) have been hydrothermally synthesized from Na - birnessite materials at low temperatures and pressures. The synthetic template materials, the pH value of the medium, and the autoclaved temperature are critical in the synthesis. Sodium salts, such as NaCl, NaNO3, and Na2SO4, are good templates for Na-2 × 4. In strong basic solution or below 160°C, Na - birnessite does not transform to the Na-2 × 4 structure. TEM images show the synthesized Na-2 × 4 is made up of thin slablike single crystals elongated along the b axis. The formula of Na-2 × 4 can be written as Na0.33Mn0.333+Mn0.674+O2·xH2O, and it is monoclinic with space group C2/m. The unit cell parameters (a, b, c, and β) for Na-2 × 4 are 14.434(5) Å, 2.849(7) Å, 23.976(6) Å, and 98.18°, respectively. These data for Na-2 × 4 are slightly different from the data for Rb-2 × 4 synthesized under high pressure and high temperature, which were reported by Rziha et al. (Eur. J. Miner. 1996, 8, 1155-1161). The surface area of Na-2 × 4 is about 57 m2/g. Na-2 × 4 materials are thermally stable up to 450°C as indicated by TGA and TPD data.
format text
author Xia, G. G.
Tong, W.
Tolentino, E. N.
Duan, N. G.
Brock, S. L.
Wang, J. Y.
Suib, S. L.
Ressler, T.
author_facet Xia, G. G.
Tong, W.
Tolentino, E. N.
Duan, N. G.
Brock, S. L.
Wang, J. Y.
Suib, S. L.
Ressler, T.
author_sort Xia, G. G.
title Synthesis and characterization of nanofibrous sodium manganese oxide with a 2 × 4 tunnel structure
title_short Synthesis and characterization of nanofibrous sodium manganese oxide with a 2 × 4 tunnel structure
title_full Synthesis and characterization of nanofibrous sodium manganese oxide with a 2 × 4 tunnel structure
title_fullStr Synthesis and characterization of nanofibrous sodium manganese oxide with a 2 × 4 tunnel structure
title_full_unstemmed Synthesis and characterization of nanofibrous sodium manganese oxide with a 2 × 4 tunnel structure
title_sort synthesis and characterization of nanofibrous sodium manganese oxide with a 2 × 4 tunnel structure
publisher Animo Repository
publishDate 2001
url https://animorepository.dlsu.edu.ph/faculty_research/3859
_version_ 1767195881659957248

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