Synthesis and Catalytic Activity of Activated Carbon Supported Sulfonated Cobalt Phthalocyanine in the Preparation of Dimethyl Disulfide

The Merox process was widely applied in the fine chemical industry to convert mercaptans into disulfides by oxidation with oxygen, including dimethyl disulfide (DMDS). In this paper, a new activated carbon (AC)-supported sulfonated cobalt phthalocyanine (AC-CoPcS) catalyst was prepared through the c...

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Main Authors: Zhiliang Cheng, Mingxing Dai, Xuejun Quan, Shuo Li, Daomin Zheng, Yaling Liu, Rujie Yao
Format: Article
Language:English
Published: MDPI AG 2018-12-01
Series:Applied Sciences
Subjects:
Online Access:http://www.mdpi.com/2076-3417/9/1/124
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spelling doaj-da49192077cc4d4ba7a5def6ba7a016b2020-11-24T23:58:06ZengMDPI AGApplied Sciences2076-34172018-12-019112410.3390/app9010124app9010124Synthesis and Catalytic Activity of Activated Carbon Supported Sulfonated Cobalt Phthalocyanine in the Preparation of Dimethyl DisulfideZhiliang Cheng0Mingxing Dai1Xuejun Quan2Shuo Li3Daomin Zheng4Yaling Liu5Rujie Yao6Chongqing Unis Chemical Company Ltd., Chongqing 401121, ChinaSchool of Chemistry and Chemical Engineering, Chongqing University of Technology, Chongqing 400054, ChinaChongqing Unis Chemical Company Ltd., Chongqing 401121, ChinaSchool of Chemistry and Chemical Engineering, Chongqing University of Technology, Chongqing 400054, ChinaChongqing Unis Chemical Company Ltd., Chongqing 401121, ChinaChongqing Unis Chemical Company Ltd., Chongqing 401121, ChinaChongqing Unis Chemical Company Ltd., Chongqing 401121, ChinaThe Merox process was widely applied in the fine chemical industry to convert mercaptans into disulfides by oxidation with oxygen, including dimethyl disulfide (DMDS). In this paper, a new activated carbon (AC)-supported sulfonated cobalt phthalocyanine (AC-CoPcS) catalyst was prepared through the chemical linkage of ethylenediamine between them. UV−VIS, FT-IR, BET, and XPS were used to characterize the structure of the new catalyst. Then AC-CoPcS was applied to catalyze sodium methylmercaptide (SMM) oxidation for the preparation of DMDS. The effect of process parameters, such as reaction time, catalyst dosage, reaction temperature, and oxygen pressure on SMM conversion per pass (CPPSMM), yield (YieldDMDS), and purity of the DMDS (PurityDMDS) product were investigated to evaluate the catalytic performance of AC-CoPcS. The new supported catalyst exhibits better catalytic performance than the commercial one and can be properly reused four times to obtain CPPSMM and YieldDMDS higher than 90% and 70%. Under the optimum experimental conditions, the CPPSMM and YieldDMDS could reach as high as 98.7% and 86.8%, respectively, and the purity of the DMDS product is as high as 99.8%. This new supported catalyst exhibits good industrial application prospects.http://www.mdpi.com/2076-3417/9/1/124Merox processdimethyl disulfidemetal phthalocyanineactivated carbonsodium methylmercaptide oxidation
collection DOAJ
language English
format Article
sources DOAJ
author Zhiliang Cheng
Mingxing Dai
Xuejun Quan
Shuo Li
Daomin Zheng
Yaling Liu
Rujie Yao
spellingShingle Zhiliang Cheng
Mingxing Dai
Xuejun Quan
Shuo Li
Daomin Zheng
Yaling Liu
Rujie Yao
Synthesis and Catalytic Activity of Activated Carbon Supported Sulfonated Cobalt Phthalocyanine in the Preparation of Dimethyl Disulfide
Applied Sciences
Merox process
dimethyl disulfide
metal phthalocyanine
activated carbon
sodium methylmercaptide oxidation
author_facet Zhiliang Cheng
Mingxing Dai
Xuejun Quan
Shuo Li
Daomin Zheng
Yaling Liu
Rujie Yao
author_sort Zhiliang Cheng
title Synthesis and Catalytic Activity of Activated Carbon Supported Sulfonated Cobalt Phthalocyanine in the Preparation of Dimethyl Disulfide
title_short Synthesis and Catalytic Activity of Activated Carbon Supported Sulfonated Cobalt Phthalocyanine in the Preparation of Dimethyl Disulfide
title_full Synthesis and Catalytic Activity of Activated Carbon Supported Sulfonated Cobalt Phthalocyanine in the Preparation of Dimethyl Disulfide
title_fullStr Synthesis and Catalytic Activity of Activated Carbon Supported Sulfonated Cobalt Phthalocyanine in the Preparation of Dimethyl Disulfide
title_full_unstemmed Synthesis and Catalytic Activity of Activated Carbon Supported Sulfonated Cobalt Phthalocyanine in the Preparation of Dimethyl Disulfide
title_sort synthesis and catalytic activity of activated carbon supported sulfonated cobalt phthalocyanine in the preparation of dimethyl disulfide
publisher MDPI AG
series Applied Sciences
issn 2076-3417
publishDate 2018-12-01
description The Merox process was widely applied in the fine chemical industry to convert mercaptans into disulfides by oxidation with oxygen, including dimethyl disulfide (DMDS). In this paper, a new activated carbon (AC)-supported sulfonated cobalt phthalocyanine (AC-CoPcS) catalyst was prepared through the chemical linkage of ethylenediamine between them. UV−VIS, FT-IR, BET, and XPS were used to characterize the structure of the new catalyst. Then AC-CoPcS was applied to catalyze sodium methylmercaptide (SMM) oxidation for the preparation of DMDS. The effect of process parameters, such as reaction time, catalyst dosage, reaction temperature, and oxygen pressure on SMM conversion per pass (CPPSMM), yield (YieldDMDS), and purity of the DMDS (PurityDMDS) product were investigated to evaluate the catalytic performance of AC-CoPcS. The new supported catalyst exhibits better catalytic performance than the commercial one and can be properly reused four times to obtain CPPSMM and YieldDMDS higher than 90% and 70%. Under the optimum experimental conditions, the CPPSMM and YieldDMDS could reach as high as 98.7% and 86.8%, respectively, and the purity of the DMDS product is as high as 99.8%. This new supported catalyst exhibits good industrial application prospects.
topic Merox process
dimethyl disulfide
metal phthalocyanine
activated carbon
sodium methylmercaptide oxidation
url http://www.mdpi.com/2076-3417/9/1/124
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AT mingxingdai synthesisandcatalyticactivityofactivatedcarbonsupportedsulfonatedcobaltphthalocyanineinthepreparationofdimethyldisulfide
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