杨智满 研究员

发布者:汤营茂 发布时间:2021-08-24 浏览次数:10



一、个人简介

杨智满,工学博士,硕士生导师,研究员。2003年和2006年分别在河北农业大学和南京农业大学获得学士和硕士学位,2011年于中国科学院生态环境研究中心获得博士学位。20111月起在中国科学院青岛生物能源与过程研究所先后任助理研究员和副研究员;20209月起担任厌氧发酵技术研究组组长职务。2018年间,以DAAD-王宽诚奖学金获得者身份在德国亥姆霍兹联合会环境研究中心从事稳定同位素分馏技术研究。20215月,作为高端人才加入福建师范大学环境科学与工程学院。

主持国家科学基金、山东省重点研发计划、山东省自然基金重点项目等科研项目7项,参与863、中科院知识创新工程、山东省重大科技创新工程、中科院弘光专项等项目6项。发表学术论文30余篇,获国家发明专利授权2项。

二、研究方向

1)有机废弃物、污染物转化体系与合成微生物组工程。

2)微生物种间电子传递机制及在有机废弃物转化、抗生素等污染物降解等能源与环境领域的应用。

3)新型生物相容性功能材料与有机废物能源资源转化技术。

三、科研项目

1、福建师范大学人才引进启动经费,2021.05-2029.05,主持(在研)。

2、山东省自然科学基金重点项目(ZR2020KE0432021.01-2023.12,主持(在研)。

3、国家自然科学基金面上项目(41773102),2018.01-2021.12,主持(在研)。

4、山东省重点研发计划 (2017GSF217007)2018.01-2019.12,主持(结题)。

5、山东省重点研发计划 (2015GSF117016)2016.01-2017.12,主持(结题)。

6、青岛亚通达铁路设备有限公司横向项目,2015.12-2016.05,主持(结题)。

7、青岛亚通达铁路设备有限公司横向项目,2014.08-2016.08,主持(结题)。

8、国家自然科学青年基金(21307143),2014.01-2016.12,主持(结题)。

四、研究成果

代表性论文

1Manasa M.R.K., Katukuri N., Nair S., Yang H., Yang Z.,* Guo R*. Role of biochar and organic substrates in enhancing the functional characteristics and microbial community in a saline soil. Journal of Environmental Management 269 (2020) 110737 (2区,IF=5.647)

2Yang H .*, Yang Z.*, Xu X., Guo R. Increasing the methane production rate of hydrogenotrophic methanogens using biochar as a biocarrier. Bioresource Technology 302 (2020) 122829 (1区,IF= 7.539)

3Lu, J.,* Yang, Z.,* Xu,W., Shi, X., Guo, R., (2019): Enrichment of thermophilic and mesophilic microbial consortia for efficient degradation of corn stalk. Journal of Environment Sciences, 78,118-126. (3, IF=4.302)

4Yang, Z., Xu, X., Dai, M., Wang, L., Shi, X., Guo, R., (2018): Combination of bioaugmentation and biostimulation for remediation of paddy soil contaminated with 2,4-dichlorophenoxyacetic acid. Journal of Hazardous Materials 353,490–495. (1, IF=9.038)

5Yang, Z., Shi, X., Dai, M., Wang, L., Xu, X., Guo, R., (2018): Co-metabolic removal of ciprofloxacin by ciprofloxacin-degrading enrichments under condition of interaction between microbes and Fe3O4. Chemical Engineering Journal, 333, 649–656. (1, IF=10.652)

6Yang, Z., Shi, X., Dai, M., Wang, L., Xu, X., Guo, R., (2018): Promoting degradation of 2,4-dichlorophenoxyacetic acid with fermentative effluents from hydrogen-producing reactor. Chemosphere 201, 859-863. (2, IF=5.778)

7Sun, M., * Yang, Z.,*Lu, J.,  Fan, X., Guo, R.,  Fu,S., (2018): Improvement of bacterial methane elimination using porous ceramsite as biocarrier. Journal of Chemical Technology and Biotechnology,93, 2406-2414. (2, IF=2.75)

8Yang, Z., Xu, X., Dai, M., Wang, L., Shi, X., Guo, R., (2017): Accelerated ciprofloxacin biodegradation in the presence of magnetite nanoparticles. Chemosphere 188, 168-173. (2, IF=5.778)

9Yang, Z., Xu, X., Dai, M., Wang, L., Shi, X., Guo, R., (2017): Rapid degradation of 2,4-dichlorophenoxyacetic acid facilitated by acetate under methanogenic condition. Bioresource Technology 232, 146–151(1, IF=7.539)

10Yang, Z., Guo, R., Xu, X., Wang, L., Dai, M. (2016): Enhanced methane production via repeated batch bioaugmentation pattern of enriched microbial consortia. Bioresource Technology, 216, 471–477. (1, IF=7.539)

11Yang, Z., Guo, R., Shi, X., He, S., Wang, L., Dai, M., Qiu, Y., Dang, X., (2016): Bioaugmentation of Hydrogenispora ethanolica LX-B affects hydrogen production through altering indigenous bacterial community structure. Bioresource Technology, 211, 319–326. (1, IF=7.539)

12Yang, Z., Guo, R., Shi, X., Wang, C., Wang, L., Dai, M., (2016): Magnetite nanoparticles enable a rapid conversion of volatile fatty acids to methane. RSC Adv., 2016, 6, 25662-25668. (3, IF=3.119)

13Yang, Z., Shi, X., Wang, C., Wang, L., Guo, R., (2015): Magnetite nanoparticles facilitate methane production from ethanol via acting as electron acceptors. Sci. Rep. 5, 16118; (3, IF=3.998)

14Yang, Z. *, Xu, X. *, Guo, R., Fan, X., Zhao, X., (2015): Accelerated methanogenesis from effluents of hydrogen-producing stage in anaerobic digestion by mixed cultures enriched with acetate and nano-sized magnetite particles. Bioresource Technology, 190, 132-139. (1, IF=7.539)

15Li, X., Shi X., Yang, Z., Xu X., Guo R (2019). Effects of recyclable ceramsite as the porous bulking agent during the continuous thermophilic composting of dairy manure. Journal of Cleaner Production, 217: 344-351(1, IF=7.246)

16Sun, M., Yang, Z. et al (2019).Improved methane elimination by methane-oxidizing bacteria immobilized on modified oil shale semicoke. Science of The Total Environment, 655: 915-923.(2, IF=5.589)

17Sun, M., Yang, Z., Fu,S., Fan, X., Guo, R.,  (2018): Improved methane removal in exhaust gas from biogas upgrading process using immobilized methane-oxidizing bacteria. Bioresource Technology, 256, 201-207. (1, IF=7.539)

18Katukuri, N.R., Fu, S., He, S., Xu, X., Yuan, Z., Yang, Z., Guo, R., (2017): Enhanced methane production of Miscanthus floridulus by hydrogen peroxide pretreatment. Fuel, 199, 562–566. (1, IF=5.128)

19Zheng, X., Yang, Z., Xu, X., Dai, M., Guo, R., (2017). Characterization and ammonia adsorption of biochar prepared from distillers’ grains anaerobic digestion residue with different pyrolysis temperatures. J Chem Technol Biotechnol, DOI: 10.1002/jctb.5340. (2, IF=2.659)

20Fan, X., Wang, H., Guo, R., Yang, D., Zhang, Y., Yuan, X., Qiu, Y., Yang, Z., Zhao, X, (2016). Comparative study of the oxygen tolerance of Chlorella pyrenoidosa and Chlamydomonas reinhardtii CC124 in photobiological hydrogen production. Algal Research 16, 240–244. (2, IF=3.723)

21Fan, X., Guo, R., Yuan, X., Qiu, Y., Yang, Z., Wang, F., Sun, M., Zhao, X (2015). Biogas production from Macrocystis pyrifera biomass in seawater system. Bioresource Technology, 197, 339–347. (1, IF=7.539)

22Fu, S., Wang, F., Yuan, X., Yang, Z., Luo, S., Wang, C., Guo, R.(2015):The thermophilic (55°C) microaerobic pretreatment of corn straw for anaerobic digestion. Bioresource Technology, 175, 203-208. (1, IF=7.539)

五、联系方式

电子邮箱:yangzm@fjnu.edu.cn

电话:+86-15859159439

通讯地址:福建省福州市仓山区上三路8号福建师范大学仓山校区(350007