Titlebook: Catalysis and the Mechanism of Methane Conversion to Chemicals; C-C and C-O Bonds Fo Toshihide Baba,Akimitsu Miyaji Book 2020 Springer Natu

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書(shū)目名稱(chēng)Catalysis and the Mechanism of Methane Conversion to Chemicals影響因子(影響力)




書(shū)目名稱(chēng)Catalysis and the Mechanism of Methane Conversion to Chemicals影響因子(影響力)學(xué)科排名




書(shū)目名稱(chēng)Catalysis and the Mechanism of Methane Conversion to Chemicals網(wǎng)絡(luò)公開(kāi)度




書(shū)目名稱(chēng)Catalysis and the Mechanism of Methane Conversion to Chemicals網(wǎng)絡(luò)公開(kāi)度學(xué)科排名




書(shū)目名稱(chēng)Catalysis and the Mechanism of Methane Conversion to Chemicals被引頻次




書(shū)目名稱(chēng)Catalysis and the Mechanism of Methane Conversion to Chemicals被引頻次學(xué)科排名




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書(shū)目名稱(chēng)Catalysis and the Mechanism of Methane Conversion to Chemicals讀者反饋




書(shū)目名稱(chēng)Catalysis and the Mechanism of Methane Conversion to Chemicals讀者反饋學(xué)科排名

Oratory

978-981-15-4134-6Springer Nature Singapore Pte Ltd. 2020

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Toshihide Baba,Akimitsu MiyajiSummarizes fundamental issues in methane conversion for novices in the field.Illustrates examples of methane conversion without the boundary of chemical and biological catalysts.Uses basic organic and

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https://doi.org/10.1007/978-3-030-89304-0 biological catalysts is provided, along with the social considerations and global circumstances surrounding methane conversion. The scope is mainly restricted to the “direct conversion of methane” to produce chemicals with C–O and C–C bonds, meaning that processes involving synthesis gas as an inte

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https://doi.org/10.1007/978-3-030-89304-0e been isolated from the cells of methane-oxidizing bacteria: iron-containing, soluble MMO (sMMO) and copper-containing, membrane-bound MMO (particulate MMO, pMMO). Methane conversion via MMOs is attractive as a sustainable methane-utilization technique because the enzymatic methane conversion proce

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https://doi.org/10.1007/978-3-030-89304-0en at ambient temperature and pressure. Such systems have inspired scientists to attempt to establish artificial, energy-efficient, one-step processes for methanol production from methane using molecular oxygen as the oxidant. However, methanol production in such artificial systems remains highly ch

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https://doi.org/10.1007/978-3-030-89304-0l methane-oxidizing bacteria as a biocatalyst. At present, methanol production using methane-oxidizing bacteria is more promising than using isolated MMO due to disadvantages such as the high cost of isolating MMO and the instability of MMO outside the bacterial cells. In this chapter, only methanol

勾引

Anandan Das,Shubhadeep Roychoudhury mainly discusses the active sites of OCM catalysts, their reaction mechanisms, and their catalytic performance under various oxidative reaction conditions, including the OCM reaction network. In the OCM reaction, CH. is oxidatively converted to C.H. and then C.H.. After activation of CH. on catalys

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Anandan Das,Shubhadeep Roychoudhuryscussed. This reaction is known as methane dehydroaromatization (MDA). The MDA reaction, which can also proceed over H.-exchanged zeolites modified with other metal species (Fe, Re, W, Ru, Cr, Zn, Pt, and Mn), simultaneously produces both aromatic hydrocarbons, such as benzene and hydrogen via ethyl