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Synthesis and Photocatalytic Properties of Tin(II) Oxide
The effect of the precipitant nature of the tin(II) hydroxoform on the composition, structure, and surface morphology of samples based on tin(II) oxide prepared by precipitation under the same conditions with various precipitants: NaOH, a mixture of NaOH with hexamethylenetetramine, and NH 3 solutio...
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| Published in: | Russian journal of applied chemistry 2021-02, Vol.94 (2), p.162-171 |
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| Language: | English |
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| container_end_page | 171 |
| container_issue | 2 |
| container_start_page | 162 |
| container_title | Russian journal of applied chemistry |
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| creator | Kuznetsova, S. A. Mishenina, L. N. Mal’chik, A. G. |
| description | The effect of the precipitant nature of the tin(II) hydroxoform on the composition, structure, and surface morphology of samples based on tin(II) oxide prepared by precipitation under the same conditions with various precipitants: NaOH, a mixture of NaOH with hexamethylenetetramine, and NH
3
solution, was studied. It was found by X-ray phase analysis with Rietveld refinement that the SnO structure is sensitive to the composition of the precipitant. The addition of hexamethylenetetramine to NaOH leads to the formation of SnO with a distorted tetragonal lattice due to a decrease in the distance between the Sn–Sn atoms. It is shown that the temperature of SnO formation determines the shape of particles, porosity, size of agglomerates, and the width of the forbidden zone of the oxide. The possibility and conditions of preparing SnO samples, which exhibit photocatalytic activity in the model reaction of methyl orange decomposition, have been revealed. It was found that the photocatalytic activity is exhibited by SnO samples without SnO
2
impurities with a specific surface area of 5.4, 5.9, 6.8 m
2
g
–1
and a pore volume of 0.026, 0.034, 0.025 cm
3
g
–1
, respectively. |
| doi_str_mv | 10.1134/S1070427221020051 |
| format | article |
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3
solution, was studied. It was found by X-ray phase analysis with Rietveld refinement that the SnO structure is sensitive to the composition of the precipitant. The addition of hexamethylenetetramine to NaOH leads to the formation of SnO with a distorted tetragonal lattice due to a decrease in the distance between the Sn–Sn atoms. It is shown that the temperature of SnO formation determines the shape of particles, porosity, size of agglomerates, and the width of the forbidden zone of the oxide. The possibility and conditions of preparing SnO samples, which exhibit photocatalytic activity in the model reaction of methyl orange decomposition, have been revealed. It was found that the photocatalytic activity is exhibited by SnO samples without SnO
2
impurities with a specific surface area of 5.4, 5.9, 6.8 m
2
g
–1
and a pore volume of 0.026, 0.034, 0.025 cm
3
g
–1
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3
solution, was studied. It was found by X-ray phase analysis with Rietveld refinement that the SnO structure is sensitive to the composition of the precipitant. The addition of hexamethylenetetramine to NaOH leads to the formation of SnO with a distorted tetragonal lattice due to a decrease in the distance between the Sn–Sn atoms. It is shown that the temperature of SnO formation determines the shape of particles, porosity, size of agglomerates, and the width of the forbidden zone of the oxide. The possibility and conditions of preparing SnO samples, which exhibit photocatalytic activity in the model reaction of methyl orange decomposition, have been revealed. It was found that the photocatalytic activity is exhibited by SnO samples without SnO
2
impurities with a specific surface area of 5.4, 5.9, 6.8 m
2
g
–1
and a pore volume of 0.026, 0.034, 0.025 cm
3
g
–1
, respectively.</description><subject>Ammonia</subject><subject>Catalytic activity</subject><subject>Chemistry</subject><subject>Chemistry and Materials Science</subject><subject>Chemistry/Food Science</subject><subject>Composition</subject><subject>Decomposition reactions</subject><subject>Dyes</subject><subject>Hexamethylenetetramine</subject><subject>Industrial Chemistry/Chemical Engineering</subject><subject>Inorganic Chemistry</subject><subject>Morphology</subject><subject>Photocatalysis</subject><subject>Porosity</subject><subject>Tetragonal lattice</subject><subject>Tin</subject><subject>Tin dioxide</subject><subject>Tin oxides</subject><issn>1070-4272</issn><issn>1608-3296</issn><fulltext>true</fulltext><rsrctype>article</rsrctype><creationdate>2021</creationdate><recordtype>article</recordtype><recordid>eNp1kEtLAzEUhYMoWKs_wN2AG12M3txMJslSio9CoYXW9ZDJw06pMzVJwfn3TqngQlzdA-d858Ih5JrCPaWseFhSEFCgQKSAAJyekBEtQeYMVXk66MHOD_45uYhxAwCqLOWIyGXfprWLTcx0a7PFukud0Ulv-9SYbBG6nQupcTHrfLZq2tvp9C6bfzXWXZIzr7fRXf3cMXl7flpNXvPZ_GU6eZzlhgFPuRIohadW14o57mpvBYeixppZS4sSuTQlKIXceyGYNiiZkZorYZ303Hk2JjfH3l3oPvcupmrT7UM7vKyQg2JYoMQhRY8pE7oYg_PVLjQfOvQVheowUPVnoIHBIxOHbPvuwm_z_9A3BcNlkg</recordid><startdate>20210201</startdate><enddate>20210201</enddate><creator>Kuznetsova, S. A.</creator><creator>Mishenina, L. N.</creator><creator>Mal’chik, A. G.</creator><general>Pleiades Publishing</general><general>Springer Nature B.V</general><scope>AAYXX</scope><scope>CITATION</scope></search><sort><creationdate>20210201</creationdate><title>Synthesis and Photocatalytic Properties of Tin(II) Oxide</title><author>Kuznetsova, S. A. ; Mishenina, L. N. ; Mal’chik, A. G.</author></sort><facets><frbrtype>5</frbrtype><frbrgroupid>cdi_FETCH-LOGICAL-c305t-97287f1dab93e5ebfd7504b2b3dd146258c609925ff773ac283c8a597de8f5ef3</frbrgroupid><rsrctype>articles</rsrctype><prefilter>articles</prefilter><language>eng</language><creationdate>2021</creationdate><topic>Ammonia</topic><topic>Catalytic activity</topic><topic>Chemistry</topic><topic>Chemistry and Materials Science</topic><topic>Chemistry/Food Science</topic><topic>Composition</topic><topic>Decomposition reactions</topic><topic>Dyes</topic><topic>Hexamethylenetetramine</topic><topic>Industrial Chemistry/Chemical Engineering</topic><topic>Inorganic Chemistry</topic><topic>Morphology</topic><topic>Photocatalysis</topic><topic>Porosity</topic><topic>Tetragonal lattice</topic><topic>Tin</topic><topic>Tin dioxide</topic><topic>Tin oxides</topic><toplevel>peer_reviewed</toplevel><toplevel>online_resources</toplevel><creatorcontrib>Kuznetsova, S. A.</creatorcontrib><creatorcontrib>Mishenina, L. N.</creatorcontrib><creatorcontrib>Mal’chik, A. G.</creatorcontrib><collection>CrossRef</collection><jtitle>Russian journal of applied chemistry</jtitle></facets><delivery><delcategory>Remote Search Resource</delcategory><fulltext>fulltext</fulltext></delivery><addata><au>Kuznetsova, S. A.</au><au>Mishenina, L. N.</au><au>Mal’chik, A. G.</au><format>journal</format><genre>article</genre><ristype>JOUR</ristype><atitle>Synthesis and Photocatalytic Properties of Tin(II) Oxide</atitle><jtitle>Russian journal of applied chemistry</jtitle><stitle>Russ J Appl Chem</stitle><date>2021-02-01</date><risdate>2021</risdate><volume>94</volume><issue>2</issue><spage>162</spage><epage>171</epage><pages>162-171</pages><issn>1070-4272</issn><eissn>1608-3296</eissn><abstract>The effect of the precipitant nature of the tin(II) hydroxoform on the composition, structure, and surface morphology of samples based on tin(II) oxide prepared by precipitation under the same conditions with various precipitants: NaOH, a mixture of NaOH with hexamethylenetetramine, and NH
3
solution, was studied. It was found by X-ray phase analysis with Rietveld refinement that the SnO structure is sensitive to the composition of the precipitant. The addition of hexamethylenetetramine to NaOH leads to the formation of SnO with a distorted tetragonal lattice due to a decrease in the distance between the Sn–Sn atoms. It is shown that the temperature of SnO formation determines the shape of particles, porosity, size of agglomerates, and the width of the forbidden zone of the oxide. The possibility and conditions of preparing SnO samples, which exhibit photocatalytic activity in the model reaction of methyl orange decomposition, have been revealed. It was found that the photocatalytic activity is exhibited by SnO samples without SnO
2
impurities with a specific surface area of 5.4, 5.9, 6.8 m
2
g
–1
and a pore volume of 0.026, 0.034, 0.025 cm
3
g
–1
, respectively.</abstract><cop>Moscow</cop><pub>Pleiades Publishing</pub><doi>10.1134/S1070427221020051</doi><tpages>10</tpages></addata></record> |
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| ispartof | Russian journal of applied chemistry, 2021-02, Vol.94 (2), p.162-171 |
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| language | eng |
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| source | Springer Link |
| subjects | Ammonia Catalytic activity Chemistry Chemistry and Materials Science Chemistry/Food Science Composition Decomposition reactions Dyes Hexamethylenetetramine Industrial Chemistry/Chemical Engineering Inorganic Chemistry Morphology Photocatalysis Porosity Tetragonal lattice Tin Tin dioxide Tin oxides |
| title | Synthesis and Photocatalytic Properties of Tin(II) Oxide |
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