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Experimental Study of Microalgae Cultivation under Selective Illumination by Ag/CoSO_(4)for Bioelectrode Materials Preparation
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作者 Kai Zhu Hao Chen +6 位作者 Shuang Wang Chuan Yuan Bin Cao Jun Ni Lujiang Xu Anqing Zheng Arman Amani Babadi 《Journal of Renewable Materials》 SCIE EI 2023年第6期2849-2864,共16页
Microalgae biomass is an ideal precursor to prepare renewable carbon materials,which has broad application.The bioaccumulation efficiency(lipids,proteins,carbohydrates)and biomass productivity of microalgae are influe... Microalgae biomass is an ideal precursor to prepare renewable carbon materials,which has broad application.The bioaccumulation efficiency(lipids,proteins,carbohydrates)and biomass productivity of microalgae are influenced by spectroscopy during the culture process.In this study,a bilayer plate-type photobioreactor was designed to cultivate Chlorella protothecoides with spectral selectivity by nanofluids.Compared to culture without spectral selectivity,the spectral selectivity of Ag/CoSO_(4)nanofluids increased microalgae biomass by 5.76%,and the spectral selectivity of CoSO_(4)solution increased by 17.14%.In addition,the spectral selectivity of Ag/CoSO_(4)nanofluids was more conducive to the accumulation of nutrients(29.46%lipids,50.66%proteins,and 17.86%carbohydrates)in microalgae.Further cultured chlorella was utilized to prepare bioelectrode materials,it was found that algal based biochar had a good pore structure(micro specific surface area:1627.5314 m^(2)/g,average pore size:0.21294 nm).As the current density was 1 A/g,the specific capacitance reached 230 F/g,appearing good electrochemical performance. 展开更多
关键词 bioelectrode materials Ag/CoSO_(4)nanofluids spectral selectivity microalgae cultivation pore structure
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Multienzyme co-immobilization-based bioelectrode:Design of principles and bioelectrochemical applications 被引量:2
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作者 Ranran Wu Haiyan Song +2 位作者 Yuanming Wang LeiWang Zhiguang Zhu 《Chinese Journal of Chemical Engineering》 SCIE EI CAS CSCD 2020年第8期2037-2050,共14页
Enzyme cascade reactions play significant roles in bioelectrochemical processes because they permit more complex reactions. Co-immobilization of multienzyme on the electrode could help to facilitate substrate/intermed... Enzyme cascade reactions play significant roles in bioelectrochemical processes because they permit more complex reactions. Co-immobilization of multienzyme on the electrode could help to facilitate substrate/intermediate transfer among different enzymes and electron transfer from enzyme active sites to the electrode with high stability and retrievability. Different co-immobilization strategies to construct multienzyme bioelectrodes have been widely reported, however, up to now, they have barely been reviewed. In this review, we focus on recent state-of-the-art techniques for constructing co-immobilized multienzyme electrodes including random and positional co-immobilization. Particular attention is given to strategies such as multienzyme complex and surface display. Cofactor co-immobilization on the electrode is also crucial for the enhancement of catalytic reaction and electron transfer, yet, few studies have been reported. The up-to-date advances in bioelectrochemical applications of multienzyme bioelectrodes are also presented. Finally, key challenges and future perspectives are discussed. 展开更多
关键词 Multienzyme co-immobilization bioelectrode Bioelectrochemical system Cascade reaction
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具有增强一致性和透气性的无基底超薄表皮生物电极用于长期生理监测 被引量:1
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作者 李冠军 公彦婷 +7 位作者 方诗镪 游通 邵瑞瑞 姚兰前 刘晨 武春锦 牛坚 赖文勇 《Science China Materials》 SCIE EI CAS CSCD 2024年第5期1481-1490,共10页
开发耐用且可靠的生物电极,用以采集高质量的生物电信号,已成为人体生理状态监测和人机交互领域的关键技术.然而,现有的生物电极多基于传统弹性基底,这导致了机械性能不匹配和低渗透性等问题,并且缺乏与生物皮肤类似的多方面属性和必要... 开发耐用且可靠的生物电极,用以采集高质量的生物电信号,已成为人体生理状态监测和人机交互领域的关键技术.然而,现有的生物电极多基于传统弹性基底,这导致了机械性能不匹配和低渗透性等问题,并且缺乏与生物皮肤类似的多方面属性和必要的协同特性.本研究中,我们报道了一种新型的基于自支撑导电全聚合物薄膜的超薄表皮生物电极(ASU-EBE).该电极将超一致性、优异的拉伸性和透气性集成于一体,展现了约475 S cm^(-1)的高导电性,约48%的出色拉伸性,与生物组织界面的超一致性以及优异的透气性.该电极的电子和机械性能得到提升,这归功于在PEDOT:PSS中引入水溶性聚氧化乙烯,以调节分子间π-π堆积距离,并促进纳米纤维结构的形成.因此,ASU-EBE在与皮肤接触时的阻抗远低于标准凝胶电极,使其成为复杂日常环境下长期医疗监测的理想选择. 展开更多
关键词 flexible bioelectronics epidermal bioelectrodes freestanding conductive films conformality breathability
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