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7.459984 2025-04-24 16:59:18

JOIN US
发酵工程师招聘
岗位名称:发酵工程师 职位月薪:面议 工作性质:全职 工作经验:不限 最低学历:硕士 招聘人数:1人 平台简介 “合成生物研究重大科技基础设施”项目(以下简称“合成生物大设施”)是深圳市光明科学城优先启动和布局的重点项目之一,计划总投资约20亿人民币,中国科学院深圳先进技术研究院为牵头单位。合成生物大设施旨在打造一个用户的“云端实验室”和运营者的“智能实验室”二位一体的工业化合成生物研究平台,将自动化、信息化与生物技术相融合,实现高通量、标准化合成生物研发能力,服务学术研究与工业应用需求。合成生物大设施于2022年9月进驻位于光明区的光明科学城。 岗位亮点 l 一流科研平台 l 充足经费保障 l 学科交叉引领 l 教研双聘机制 l 开放产业环境 l 多维发展路径 l 3H全方位保障 (一)岗位描述 1.拥有发酵技术领域的工作经验,生产菌种筛选和优化工作经验; 2.拥有发酵产品开发工作经验,包括但不限于实验室工艺开发,中试工艺放大以及生产工艺验证与优化等方面; 3.拥有发酵生产过程工艺参数关键点的发现与调控,和确保发酵产品质量的经验; 4.能够开展发酵工艺设计及优化或代谢流工程相关领域实验; 5.可独立开展科研工作,根据工作计划设置项目进度表,确保能依照进度表完成任务目标; 6.熟练发酵罐相关操作,如清洗、灭菌、过程培养、参数检测、日常维护等,并具有对发酵过程异常情况处理的能力。    (二)应聘要求 1.已获硕士学位; 2.专业包括微生物学和发酵技术学,具备扎实的基础知识及实验技能; 3.具备扎实的数据分析及组织能力; 4.需熟练使用英语进行书面交流,团队合作意识强,工作态度认真负责,具备较高的创新能力和批判精神,积极处理和解决工作中遇到的问题。 (三)薪资福利 1.薪酬奖励:科研成果转化奖励、年终绩效组织奖励、富有竞争力的薪酬水平; 2.3H工程:人才安居房、高端年度体检、子女入学; 3.福利保障:全额缴纳五险一金,工作日餐费补贴,10+天的带薪年假; 4.节假日慰问:节假日员工福利,不定期组织开展文体活动; 5.人才培养:设置开放课题、学术交流、技能培训、继续深造、出国访问交流; 6.稳定发展:签订劳动合同,聘期稳定,根据工作成就可续聘、逐级晋升。 (四)应聘方式 有意申请者请将个人简历(要求为PDF)以发送至gaoxiang@siataccn,简历及邮件标题注明“应聘发酵工程师岗位”。
发酵 工作 生物 合成 能力
系统管理员   2025-04-24 17:04:48

7.458793 2025-04-24 16:52:04

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实习生招聘
岗位名称:客座学生(实习生) 职位月薪:3000-6000月/元 工作性质:全职 工作经验:不限 最低学历:本科及以上学历 招聘人数:2-3人 岗位职责: 1理工科背景,有志从事生物学相关研究; 2有从事合成生物学、定量生物学、基因组学、分子生物学、生物化学、肿瘤生物学、环境微生物、生物物理学,软物质,计算科学、生物材料及分析化学等方面研究工作者优先考虑; 3具有独立研究能力,能较独立地参与相关科研项目的工作开展; 4能将所从事的实验研究作为毕业设计或者撰写学术论文进行发表。 应聘要求: 1已完成基础课程的在读博士、硕士研究生,或高年级本科生; 2有较强的学习、动手和创造能力,有旺盛的求知欲; 3良好的英文能力,强烈的责任心、良好的沟通能力与团队合作精神; 4征得校方及导师的同意,来先进院实习期不低于半年; 5专业背景:生物、食品、环境、药学、化工等相关方向; 其它说明: 1报销一次性来院报到交通费(硬卧或高铁二等座标准内,实报实销) 2每月提供助学金(面议) 3免费入住学生公寓,提供餐费补助 4实习期间单位购买商业保险 5可申请季度奖学金、年度奖学金、岗位助学金等 6在指导下完成论文,参与科研项目,提供科研辅助和支持 7实习期表现优异的客座学生可在毕业后转正 申请方式 有意申请者请将申请材料(个人简历、代表性论文)发送至:gaoxiang@siataccn(邮件中请注明应聘的研究方向) 电话:0755-86392433
研究 能力 论文 实习期 学生
系统管理员   2025-04-24 16:54:13

7.458579 2025-04-24 16:50:46

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博士后招聘
研究方向: 1海洋CO2生物利用关键技术研发:生物-非生物杂合体系技术,融合了生物催化和光/电化学催化的优势,将海水中的CO2转化为可降解塑料、燃料和化学品等;研发光电能驱动的人工自养细胞工厂,直接利用海水中的CO2来生长和生产目标产物;耦合电催化,将海水中的CO2捕集并转化为一碳化合物,构建一碳化合物为原料的人工细胞工厂,生产目标产物。 2活细胞合成纳米材料的精准调控技术研发:从头设计细胞内催化材料合成的人工途径,开发生物法合成材料的大小、形貌、光电子生成效率、空间分布等精准调控技术,实现生物法合成高光效的杂合体; 3AI蛋白设计:从头设计固碳酶、一碳化合物利用的关键酶、和蛋白纳米导线等。 岗位职责: 1在PI的协助下主导课题研究,积极推进课题; 2 协助PI指导研究生; 任职要求: 1 获得博士学位,且获学位时间一般不超过3年; 2 专业方向包括到不限于合成生物学、微生物学、环境科学与工程、电化学、光电催化、半导体材料等等相关专业领域; 3 年龄≤35周岁,未在广东省从事过博士后工作; 4 热爱科研、勤奋努力,有良好的团队协作精神和沟通协调能力; 5 良好的英文阅读、写作及交流能力,以第一作者在相关领域发表过至少1篇SCI论文。 薪酬福利: 1待遇:聘期两年、税前综合收入平均30-45万/年(含省市补贴),具体面议; 2五险一金:享受全职员工的医疗保险、养老保险、工伤保险等基本社会保险和住房公积金; 3奖励:与正式员工同等享有年度奖励性绩效。 福利关怀: 1专项福利:享受工会福利、伙食补贴、节日补贴、上下班车停车、享受带薪年休假、节日慰问等福利。按照员工结婚、生育、生日、法定节假日等慰问,特色活动(生日会、下午茶、兴趣小组等)等福利; 2住房福利:可以选择申请院内过渡房、深圳市博士后公寓(合正置地)及深圳市人才房; 3户口办理:协助办理深圳市户口(配偶、未成年子女可随迁); 4优质医疗:为本人提供高水准的医疗保障,职工年度体检; 5科研环境:提供国际领先的科研条件,包括良好的工作环境、充足的研究经费、前沿的实验仪器和愉悦工作氛围。 项目申报: 1专业申报团队、资深科研专家提供项目申报指导,科研成果和技术的转移转化服务,为申请人提供全方位、全链条的精细指导。 2在站期间,可申报中国博士后科学基金资助、博士后国(境)外交流项目、香江学者计划(湾区项目)、澳门青年学者计划(湾区项目)、国家资助博士后研究人员计划(A、B、C档)、广东省海外博士后人才支持项目、中国科学院特别研究助理资助、“院长博士后择优专项计划”。 政策待遇: 1在站工作期间计入我院工龄,提供参与国际合作交流与课题合作的机会,鼓励符合要求的博士后申报各类项目。 2在站期间,可申报中国博士后科学基金资助(面上资助标准为8万元、5万元,特别资助标准为18万元、15万元); 3符合条件可竞争性申报国家“博士后创新人才支持计划”(A档每人两年共64万元的资助,其中56万元为博士后生活补贴,8万元为科研资助;B档每人两年36万元博士后生活补贴;C档每人两年24万元博士后生活补贴),此项目与省经费不兼得; 4广东省海外博士后人才支持项目(毕业于TOP前200名海外高校,根据获得博士学位的年份,以泰晤士、USNews、QS和上海交通大学发布的世界大学排行榜为准;在站60万/2年,出站后留粤住房补贴40万/3年,共计100万),此项目与省经费、市补助不兼得; 5在站期间,可申报“院长博士后择优专项计划”,予以第三年资助,可申请市博士后公寓、市人才房或申请一次性住房补贴2万元,颁发《院长博士后择优专项资助证书》。 6博士后人员期满出站后6个月内留(来)深全职工作且与企事业单位签订3年以上劳动(聘用)合同的,给予每人36万元/3年出站留(来)深生活补助(2025年1月1日起执行)。 相关政策均以广东省、深圳市文件为主。 应聘材料及联系方式: 1 个人中英文简历(附上发表学术成果列表); 2 学位证明相关材料扫描件; 3反映本人学术水平的近5年代表性成果复印件; 4专家推荐信优先考虑。 应聘者请按照“申请岗位名称 + 姓名”的邮件标题,将上述材料发至gaoxiang@siataccn
博士后 材料 项目 福利 补贴
系统管理员   2025-04-24 16:51:41

7.450626 2025-04-24 16:02:27

Papers
Selected Publications
1Shanshan Pi#, Wenjun Yang#, Wei Feng#, Ruijie Yang, Weixiang Chao, Wenbo Cheng, Lei Cui, Zhida Li, Yiliang Lin, Nanqi Ren, Chen Yang, Lu Lu*,Xiang Gao*Solar-driven waste-to-chemical conversion by wastewater-derived semiconductor biohybridsNatureSustainability,2023,6, 1673–1684 2Yiliang Lin#, Jiuyun Shi#,Wei Feng#,Jiping Yue, Yanqi Luo, Si Chen, Yuanwen Jiang, Huicheng Hu, Chenkun Zhou, Fengyuan Shi, Aleksander Prominski, Dmitri V Talapin, Wei Xiong,Xiang Gao*,Bozhi Tian*Periplasmic biomineralization for semi-artificial photosynthesisScience Advances, 2023,9, eadg5858 3Qiushi Hu#, Haitao Hu#, Lei Cui#, Zhaodong Li, Drazenka Svedruzic, Jeffrey L Blackburn, Mat-thew C Beard, Jun Ni, Wei Xiong,Xiang Gao*, Xihan Chen*Ultrafast electron transfer in Au–Cyanobacteria hybrid for solar to chemical productionACS Energy Letters,2023, 8, 677-684 4Yiliang Lin#*,Xiang Gao#, Jiping Yue#, Yin Fang#, Jiuyun Shi,Lingyuan Meng,Clementene Clayton, Xin-Xing Zhang, Fengyuan Shi, Junjing Deng, Si Chen, Yi Jiang, Fabricio Marin, Jingtian Hu, Hsiu-Ming Tsai, Qing Tu, Eric W Roth, Reiner Bleher, Xinqi Chen, Philip Griffin, Zhonghou Cai, Teri W Odom, Bozhi Tian*A soil-inspired dynamically responsive chemical system for microbial modulationNature Chemistry,2023, 15, 119-128 5Xiang Gao#*, Yuanwen Jiang#, Yiliang Lin#, Kyoung-Ho Kim#, Yin Fang, Jaeseok Yi, Lingyuan Meng, Hoo-Cheol Lee, Zhiyue Lu, Owen Leddy, Rui Zhang, Qing Tu, Wei Feng, Vishnu Nair, Philip J Griffin, Fengyuan Shi, Gajendra S Shekhawat, Aaron R Dinner, Hong-Gyu Park* and Bozhi Tian*Structured silicon for revealing transient and integrated signal transductions in microbial systemsScience Advances,2020, 6, eaay2760
Wei Chen Xiang Shi Yiliang
系统管理员   2025-04-24 16:28:13

7.399515 2025-04-24 10:52:09

Papers
Full List of Publications
31Mingming Guo, Xinke Kong, Wenbo Cheng, Wenjun Yang, Shanshan Pi, Xin Wang, Xueyun Wang, Yang Xiang, Fangfang Duan, Chen Yang*, Yuanyuan Wang*,Xiang Gao*Enhancing solar-to-chemical conversion through tailoring dimensions of semiconductors in biohybrid systemsposted on Research Square,https://doiorg/1021203/rs3rs-4431666/v1 30Wenbo Cheng#, Xueyun Wang#, Haitao Hu#, Yu Yang#, Xuemeng Yu#, Wei Xiang Chao, Min Yu, Jianwei Ding, Yiliang Lin, Wei Zhao, Qiao Zhao, Rodrigo Ledesma-Amaro, Chao Zhong, Lu Lu, Xihan Chen, Junzhong Liu, Chen Yang* &Xiang Gao*Closed-loop enhancement of plant photosynthesis via biomass-derived carbon dots in biohybridsCommunications Materials,2025, 6, 40 29Yingyi Zhang, Xiaolian Deng, Lili Xia, Jianghui Liang, Meng Chen, Xiaoling Xu, Wei Chen, Jianwei Ding, Chengjie Yu, Limei Liu, Yang Xiang, Yiliang Lin, Fangfang Duan*, Wei Feng*, Yu Chen*,andXiang Gao*Living Therapeutics for Synergistic Hydrogen-Photothermal Cancer Treatment by Photosyntetic BacteriaAdvanced Science, 2025, 12, 2408807 28Jun Liang#, Kemeng Xiao#, Xinyu Wang#, Tianfeng Hou, Cuiping Zeng*,Xiang Gao*, Bo Wang*, Chao Zhong*Revisiting solar energy flow in nanomaterial-microorganism hybrid systemsChemical Reviews,2024, 124, 9081-9112(Cover Paper) 27Meng Chen,Bingbing Guo,Hui Cheng,Weiyi Wang,Junyi Jin,Yingyi Zhang, Xiaolian Deng, Wenjun Yang, Chenyao Wu,Xiang Gao*,Dehong Yu*, Wei Feng*, Yu Chen*Genetic EngineeringBacillus thuringiensisenable melanin biosynthesis for anti-tumor and anti-inflammationAdvanced Science,2024, 11, 2308506 26Yongjie Yu#, Shanshan Pi#, Tan Ke, Baiqin Zhou, Weixiang Chao, Yang Yang, Zhida Li, Guifeng Li, Nanqi Ren,Xiang Gao, and Lu Lu*Artificial soil-like material enhances CO2 bio-valorization into chemicals in gas fermentationACS Appl Mater Interfaces,2023, 15, 53488–53497 25Shanshan Pi#, Wenjun Yang#, Wei Feng#, Ruijie Yang, Weixiang Chao, Wenbo Cheng, Lei Cui, Zhida Li, Yiliang Lin, Nanqi Ren, Chen Yang, Lu Lu*,Xiang Gao*Solar-driven waste-to-chemical conversion by wastewater-derived semiconductor biohybridsNatureSustainability,2023,6, 1673–1684 24Jun Liang#, Zhen Chen#, Panqing Yin, Haitao Hu, Wenbo Cheng, Jinlong Shang, Yiwen Yang, Zuwen Yuan, Jinlong Pan, Yongqi Yin, Weizhi Li, Xiongwen Chen,Xiang Gao*, Baosheng Qiu*, Bo Wang*Efficient semi-artificial photosynthesis of ethylene by a self-assembled InP-Cyanobacterial biohybrid systemChemSusChem,2023, 16, e202300773 23Yiliang Lin#, Jiuyun Shi#,Wei Feng#,Jiping Yue, Yanqi Luo, Si Chen, Yuanwen Jiang, Huicheng Hu, Chenkun Zhou, Fengyuan Shi, Aleksander Prominski, Dmitri V Talapin, Wei Xiong,Xiang Gao*,Bozhi Tian*Periplasmic biomineralization for semi-artificial photosynthesisScience Advances, 2023,9, eadg5858 22Qiushi Hu#, Haitao Hu#, Lei Cui#, Zhaodong Li, Drazenka Svedruzic, Jeffrey L Blackburn, Mat-thew C Beard, Jun Ni, Wei Xiong,Xiang Gao*, Xihan Chen*Ultrafast electron transfer in Au–Cyanobacteria hybrid for solar to chemical productionACS Energy Letters,2023, 8, 677-684 21Yiliang Lin#*,Xiang Gao#, Jiping Yue#, Yin Fang#, Jiuyun Shi,Lingyuan Meng,Clementene Clayton, Xin-Xing Zhang, Fengyuan Shi, Junjing Deng, Si Chen, Yi Jiang, Fabricio Marin, Jingtian Hu, Hsiu-Ming Tsai, Qing Tu, Eric W Roth, Reiner Bleher, Xinqi Chen, Philip Griffin, Zhonghou Cai, Teri W Odom, Bozhi Tian*A soil-inspired dynamically responsive chemical system for microbial modulationNature Chemistry,2023, 15, 119-128 20Wei Tan#, Sihua Cheng#, Yingying Li#, Xiao-Yang Li, Ning Lu, Jingxian Sun, Guiyue Tang, Yujiao Yang, Kezhu Cai, Xuefei Li, Xijun Ou,Xiang Gao, Guo-Ping Zhao, W Seth Childers & Wei Zhao*Phase separation modulates the assembly and dynamics of a polarity-related scaffold-signaling hubNature Communications,2022, 13, 7181 19Lin Wang, Xi Zhang, Chenwang Tang, Pengcheng Li, Runtao Zhu, Jing Sun, Yunfeng Zhang, Hua Cui, Jiajia Ma, Xinyu Song, Weiwen Zhang,Xiang Gao, Xiaozhou Luo, Lingchong You, Ye Chen & Zhuojun DaiEngineering consortia by polymeric microbial swarmbots,Nature Communications,2022, 13, 3879 18Chao Wu#, Jonathan Lo#, Chris Urban,Xiang Gao, Bin Yang, Jonathan Humphreys, Shrameeta Shinde, Xin Wang, Katherine J Chou, PinChing Maness,Nicolas Tsesmetzis, David Parker, Wei Xiong*Acetyl-CoA synthesis through a bicyclic carbon-fixing pathway in gas-fermenting bacteria,Nature Synthesis,2022, 1, 615-625 17Kemeng Xiao#, Jun Liang#, Xinyu Wang#, Tianfeng Hou, Xiaoning Ren, Panqing Yin, Zhiping Ma, Cuiping Zeng,Xiang Gao, Tao Yu, Tong Si, Bo Wang*, Chao Zhong*, Zhifeng Jiang*, Chun-Sing Lee, Jimmy Chai-mei Yu, Po Keung WongPanoramic insights into semi-artificial photosynthesis: origin, development, and future perspective,Energy & Environmental Science,2022, 15, 529-549 16Xueyun Wang#, Wenjun Yang#, Chao Zhong,Xiang Gao*Biohybrid materials for light-driven biocatalysis,Synthetic Biology Journal,2022, 3, 98-115 15Shuting Lu, Wei Feng, Xinran Song, Caihong Dong,Xiang Gao*, Zhongqian Hu*, Jinhe Guo*andYu Chen*Photosynthetic oxygenation-augmented sonodynamic nanotherapy of hypoxic tumor,AdvancedHealthcareMaterials,2021, 11,2102135 14Zhaodong Li, Chao Wu#,Xiang Gao#, Bennett Addison, Xihan Chen, Jianping Yu, Drazenka Svedruzic, Jeffrey Blackburn*, Wei Xiong*Exogenous electricity flowing through cyanobacterial photosystem I drives CO2valorization with high energy efficiency,Energy & Environmental Science,2021, 14, 5480-5490 13Xiang Gao,Chao Wu, Michael Cantrell, Melissa Cano, Jianping Yu, Wei Xiong*What we can learn from measuring metabolic fluxes in Cyanobacteria,Cyanobacteria Biotechnology,2021, Chapter 4, 89-122 12Xiang Gao#*, Yuanwen Jiang#, Yiliang Lin#, Kyoung-Ho Kim#, Yin Fang, Jaeseok Yi, Lingyuan Meng, Hoo-Cheol Lee, Zhiyue Lu, Owen Leddy, Rui Zhang, Qing Tu, Wei Feng, Vishnu Nair, Philip J Griffin, Fengyuan Shi, Gajendra S Shekhawat, Aaron R Dinner, Hong-Gyu Park* and Bozhi Tian*Structured silicon for revealing transient and integrated signal transductions in microbial systems,Science Advances,2020, 6, eaay2760 11Vishnu Nair#, Jaeseok Yi#, Dieter Isheim, Menahem Rotenberg, Lingyuan Meng, Fengyuan Shi, Xinqi Chen,Xiang Gao, Aleksander Prominski, Yuanwen Jiang, Jiping Yue, Charles T Gallagher, David N Seidman, Bozhi Tian*Laser writing of nitrogen-doped silicon carbide for biological modulation,Science Advances,2020, 6, eaay2743 10Yin Fang*, Endao Han, Xin-Xing Zhang, Yuanwen Jiang, Yiliang Lin, Jiuyun Shi, Jiangbo Wu, Lingyuan Meng,Xiang Gao, Philip J Griffin, Xianghui Xiao, Hsiu-Ming Tsai, Hua Zhou, Xiaobing Zuo, Qing Zhang, Miaoqi Chu, Qingteng Zhang, Ya Gao, Leah K Roth, Reiner Bleher, Zhiyuan Ma, Zhang Jiang, Jiping Yue, Chien-Min Kao, Chin-Tu Chen, Andrei Tokmakoff, Jin Wang, Heinrich M Jaeger*, Bozhi Tian*Dynamic and programmable cellular-scale granules enable tissue-like materials,Matter,2020, 2, 948-964 9Chao Wu, Melissa Cano,Xiang Gao, Jonathan Lo, PinChing Maness, Wei Xiong*A quantitative lens on anaerobic life: leveraging the state-of-the-art fluxomics approach to explore clostridial metabolism,Current Opinion in Biotechnology,2020, 64, 47-54 8Yuanwen Jiang#*, Ramya Parameswaran#, Xiaojian Li#, João L Carvalho-de-Souza#,Xiang Gao, Lingyuan Meng, Francisco Bezanilla, Gordon M G Shepherd and Bozhi Tian*Nongenetic optical neuromodulation with silicon-based materials,Nature Protocols,2019, 14, 1339-1376 7Wei Feng, Rongyan Wang, Yadan Zhou, Li Ding*,Xiang Gao,Bangguo Zhou, Ping Hu, Yu Chen*Ultrathin molybdenum carbide MXene with fast biodegradability for highly efficient theory-oriented photonic tumor hyperthermia,Advanced Functional Materials,2019, 29, 1901942 6Wei Feng, Xiuguo Han, Rongyan Wang,Xiang Gao, Ping Hu, Wenwen Yue, Yu Chen*, Jianlin ShiNanocatalysts-augmented and photothermal‐enhanced tumor-specific sequential nanocatalytic therapy in both NIR-I and NIR-II biowindows,Advanced Materials,2019, 31, 1805919 5Yin Fang#, Yuanwen Jiang#, Hector Acaron Ledesma#, Jaeseok Yi,Xiang Gao, Dara E Weiss, Fengyuan Shi, Bozhi Tian*Texturing silicon nanowires for highly localized optical modulation of cellular dynamics,Nano Letters,2018, 18, 4487-4492 4Yuanwen Jiang, Xiaojian Li, Bing Liu, Jaeseok Yi, Yin Fang, Fengyuan Shi,Xiang Gao, Edward Sudzilovsky, Ramya Parameswaran, Kelliann Koehler, Vishnu Nair, Jiping Yue, KuangHua Guo, Yin Fang, Hsiu-Ming Tsai, George Freyermuth, Raymond C S Wong, Chien-Min Kao, Chin-Tu Chen, Alan W Nicholls, Xiaoyang Wu, Gordon M G Shepherd and Bozhi Tian*Rational design of silicon structures for optically controlled multiscale biointerfaces,Nature Biomedical Engineering,2018, 2, 508-521 3Qingyan Li, Feiyu Fan,Xiang Gao, Chen Yang, Changhao Bi, Jinlei Tang, Tao Liu, Xueli Zhang*Balanced activation of IspG and IspH to eliminate MEP intermediate accumulation and improve isoprenoids production in Escherichia coli,Metabolic Engineering,2017, 44, 13-21 2Chen Yang#,Xiang Gao#, Yu Jiang#, Bingbing Sun#, Fang Gao, Sheng Yang*Synergy between methylerythritol phosphate pathway and mevalonate pathway for isoprene production inEscherichia coli,Metabolic Engineering,2016, 37, 79-91 1Xiang Gao, Fang Gao, Deng Liu, Hao Zhang, Xiaoqun Nie and Chen Yang*Engineering the methylerythritol phosphate pathway in cyanobacteria for photosynthetic isoprene production from CO2,Energy & Environmental Science,2016, 9, 1400-1411
Xiang Gao Chen Wei Zhang
系统管理员   2025-04-24 10:54:59

7.394892 2025-04-24 10:24:06

RESEARCH
基于半导体-微生物杂合体系实现“半人工光合作用”
体系 杂合 微生物 实现 人工
系统管理员   2025-04-24 10:30:14

7.19634 2025-04-23 14:21:08

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系统管理员   2025-04-23 14:21:32

7.196274 2025-04-23 14:20:44

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系统管理员   2025-04-23 14:21:02

7.194955 2025-04-23 14:12:45

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系统管理员   2025-04-23 14:20:36

7.1617117 2025-04-23 10:51:35

课题组领导
测试----Xiang Gao(高翔)
Gao 测试 高翔 ----Xiang
系统管理员   2025-04-23 10:53:54