Fe3O4/granular activated carbon as an efficient three-dimensional electrode to enhance the microbial electrosynthesis of acetate from CO2

Hao Zhu; Zhiwei Dong; Qiong Huang; Tian-shun Song; Jingjing Xie

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Fe3O4/granular activated carbon as an efficient three-dimensional electrode to enhance the microbial electrosynthesis of acetate from CO2

机译：Fe3O4 /颗粒活性炭作为有效的三维电极，可增强微生物从二氧化碳中电合成乙酸盐的能力

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Microbial electrosynthesis (MES) allows the transformation of CO _(2) into value-added products by coupling with renewable energy. The enhancement in the microbial activity and electron transfer rate via a new electrode modification method is essential for developing MES. Here, three groups of granular activated carbon decorated by Fe _(3) O _(4) (Fe _(3) O _(4) /GAC) with mass fractions of 23%, 38% and 50% were prepared and compared with bare GAC. The volumetric acetate production rate of MES with Fe _(3) O _(4) /GAC-38% was the highest (0.171 g L ~(?1) d ~(?1) ), which was 1.4 times higher that of the control (bare GAC), and the final acetate concentration reached 5.14 g L ~(?1) within 30 days. Linear sweep voltammetry and microbial community analyses suggested that Fe _(3) O _(4) /GAC facilitates extracellular electron transfer and improves the enrichment of electrochemically active bacteria. Fe _(3) O _(4) /GAC is an effective three-dimensional electrode material that enhances biofilm activity on GAC and improves MES efficiency.

机译：微生物电合成（MES）允许通过与可再生能源耦合将CO _（2）转化为增值产品。通过新的电极修饰方法来提高微生物活性和电子传递速率对于开发MES是必不可少的。在这里，制备并比较了由Fe _（3）O _（4）（Fe _（3）O _（4）/ GAC）装饰的三组颗粒状活性炭，质量分数分别为23％，38％和50％裸GAC。 Fe _（3）O _（4）/ GAC-38％的MES的乙酸盐体积产率最高（0.171 g L〜（？1）d〜（？1）），是其的1.4倍。对照（裸GAC），并且在30天内最终乙酸盐浓度达到5.14g L·（Δ1）。线性扫描伏安法和微生物群落分析表明，Fe _（3）O _（4）/ GAC促进细胞外电子转移并改善电化学活性细菌的富集。 Fe _（3）O _（4）/ GAC是有效的三维电极材料，可增强GAC上的生物膜活性并提高MES效率。

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《RSC Advances》 |2019年第59期|共7页
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Hao Zhu; Zhiwei Dong; Qiong Huang; Tian-shun Song; Jingjing Xie;
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1. Fe3O4/granular activated carbon as an efficient three-dimensional electrode to enhance the microbial electrosynthesis of acetate from CO2 [J] . RSC Advances . 2019,第59期

机译：Fe3O4 /粒状活性炭作为有效的三维电极，以增强来自CO2的微生物电气合成
2. Fluidized granular activated carbon electrode for efficient microbial electrosynthesis of acetate from carbon dioxide [J] . Dong Zhiwei, Wang Haoqi, Tian Shihao, Bioresource Technology: Biomass, Bioenergy, Biowastes, Conversion Technologies, Biotransformations, Production Technologies . 2018,第期

机译：流化颗粒状活性炭电极，用于高效的醋酸二氧化碳微生物电气合成
3. Fluidized granular activated carbon electrode for efficient microbial electrosynthesis of acetate from carbon dioxide [J] . Dong Zhiwei, Wang Haoqi, Tian Shihao, Bioresource Technology: Biomass, Bioenergy, Biowastes, Conversion Technologies, Biotransformations, Production Technologies . 2018,第期

机译：流化颗粒状活性炭电极，用于高效的醋酸二氧化碳微生物电气合成
4. THE IMAPCT OF Fe3O4 ON THE PREPARATION OF MAGNETIC GRANULAR ACTIVATED CARBON FROM BROWN COAL [C] . Yong Jiang, Qiang Xie, Tingting Zhang Annual World Conference on Carbon . 2011

机译：Fe3O4对棕煤制备磁性粒状活性炭的影响
5. Microbial ecology of activated sludge and granular activated carbon communities treating oil and gas produced water. [D] . Chan, Kevin Edward. 2017

机译：活性污泥和颗粒活性炭群落的微生物生态学，用于处理油气生产水。
6. Mo2C-induced hydrogen production enhances microbial electrosynthesis of acetate from CO2 reduction [O] . Shihao Tian, Haoqi Wang, Zhiwei Dong, 2019

机译：Mo2C诱导的氢气产生增强了CO2还原产生的乙酸的微生物电合成
7. Fe3O4/granular activated carbon as an efficient three-dimensional electrode to enhance the microbial electrosynthesis of acetate from CO2 [O] . Hao Zhu, Zhiwei Dong, Qiong Huang, 2019

机译：Fe3O4 /粒状活性炭作为有效的三维电极，以增强来自CO2的微生物电气合成

Fe3O4/granular activated carbon as an efficient three-dimensional electrode to enhance the microbial electrosynthesis of acetate from CO2

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