研究员----中国科学院天津工业生物技术研究所

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研究员

姓名	朱之光	性别	男
专家类别	N/A	职称	研究员
学历	博士研究生	电话	022-24828797
传真	022-24828789	电子邮件	zhu_zg@tib.cas.cn
地址	天津市空港经济区西七道32号	邮编	300308

简历

1. 教育经历

2003.9-2007.6，华中科技大学，生物技术，学士

2007.8-2009.5，弗吉尼亚理工大学，生物系统工程，硕士

2009.8-2013.5，弗吉尼亚理工大学，生物系统工程，博士

2. 工作经历

2013.7-2016.6，Cell-Free Bioinnovations Inc.，首席技术官

2016.7-至今，中国科学院天津工业生物技术研究所，研究员

研究方向：

生物化工、生物电催化、合成生物能量转化

利用生物工程、合成生物学和生物电化学的方法和原理，研究生物催化与电子传递相关科学问题，通过酶工程改造、电子传递强化、以及生物-纳米介面调控等策略，构建高效、稳定的生物燃料电池、生物电化学合成、生物传感等系统

(Website: https://www.x-mol.com/groups/zhuzhiguang)

承担科研项目情况：

主持国家重点研发计划、中国科学院先导专项、重点部署项目、国家自然科学基金面上项目、天津市面上项目、合成生物技术创新能力提升行动、中国科学院和天津市人才项目等。

获奖及荣誉：

2022 天津市自然科学特等奖（排名8/12）

2019 第六批天津市创新人才推进计划青年科技优秀人才

2017 中国科学院北京分院启明星复合型人才

2012 国家优秀自费留学生奖学金

代表论著：

Kang ZP^#, Wang YM^#, Song HY, Wang XL, Zhang YHPJ, Zhu ZG*. 2024. A wearable and flexible lactic-acid/O2 biofuel cell with an enhanced air-breathing biocathode. Biosensors and Bioelectronics 246: 115845 (^#co-first authors)
Wu RR^#, Li F^#, Cui XY, Li ZH, Ma CL, Jiang HF, Zhang LL, Zhang YHPJ, Zhao TX, Zhang YP, Li Y, Chen H, Zhu ZG*. 2023. Enzymatic electrosynthesis of glycine from CO₂ and NH₃. Angewandte Chemie International Edition 62: e202218387 (^#co-first authors)
Xu J^#, Wang J^#, Ma CL^#, Wei ZX, Zhai YD, Tian N, Zhu ZG*, Xue M*, Li DM*. 2023. Embracing a low-carbon future by the production and marketing of C1 gas protein. Biotechnology Advances 63: 108096 (^#co-first authors)
Li ZH, Wu RR, Chen K, Gu W, Zhang YHPJ*, Zhu ZG*. 2023, Enzymatic biofuel cell-powered iontophoretic facial mask for enhanced transdermal drug delivery. Biosensors and Bioelectronics 223: 115019
Zhu HW, Xu LR, Luan GD, Zhan T, Kang ZP, Li CL, Lu XF*, Zhang XL*, Zhu ZG*, Zhang YP*, Li Y*. 2022. A miniaturized bionic ocean-battery mimicking the structure of marine microbial ecosystems. Nature Communications 13:5608
Zhu ZG*, Song HY, Wang YM, Zhang YHPJ*. 2022. Protein engineering for electrochemical biosensors. Current Opinion in Biotechnology 76: 102751
Wang YM, Kang ZP, Zhang LL, Zhu ZG*. 2022. Elucidating the interactions between a [NiFe]-hydrogenase and carbon electrodes for enhanced bioelectrocatalysis. ACS Catalysis 12: 1415-1427
Li F, Wei XL, Zhang L, Liu C, You C, Zhu ZG*. 2022. Installing a green engine to drive an enzyme cascade: a light-powered in vitro biosystem for poly(3-hydroxybutyrate) synthesis. Angewandte Chemie International Edition 61: e202111054
Li ZH, Kang ZP, Zhu ZG*. 2022. A photo-switch for enzymatic biofuel cells based on the photo-oxidization of electron acceptor in cathode by C-dots nanozyme. Chemical Engineering Journal 428: 131258
Wu RR, Yu Y-Y, Wang YM, Wang Y-Z, Song HY, Ma CL, Qu G, You C, Sun ZT, Zhang WY, Li AT, Li CM*, Yong Y-C*, Zhu ZG*. 2021. Wastewater-powered high-value chemical synthesis in a hybrid bioelectrochemical system. iScience 24: 103401
Song HY, Zhou XG, Zhu ZG*. 2021. An integrated NAD⁺-dependent dehydrogenase-based biosensor for xylose fermentation sample analysis. Biosensors and Bioelectronics 193: 113573
Wu RR, Ma CL, Zhu ZG*. 2020. Enzymatic electrosynthesis as an emerging electrochemical synthesis platform. Current Opinion in Electrochemistry 19:1-7
Song HY, Ma CL, Liu P, You C, Lin JP, Zhu ZG*. 2019. A hybrid CO2 electroreduction system mediated by enzyme-cofactor conjugates coupled with Cu nanoparticle-catalyzed cofactor regeneration. Journal of CO2 Utilization 34:568-575
Xiao XX^#, Xia HQ^#, Wu RR^#, Bai L, Yan L, Magner E, Cosnier S, Lojou E*, Zhu ZG*, Liu AH*. 2019. Tackling the challenges of enzymatic (bio)fuel cells. Chemical Reviews 119:9509-9558
Kang ZP, Zhang Y-HP, Zhu ZG*. 2019. A shriveled rectangular carbon tube with the concave surface for high-performance enzymatic glucose/O2 biofuel cells. Biosensors and Bioelectronics 132:76-83
Wu RR, Zhu ZG*. 2018. Self-powered enzymatic electrosynthesis of L-3,4-dihydroxyphenylalanine in a hybrid bioelectrochemical system. ACS Sustainable Chemistry Engineering 6:12593-12597