大妈水枪喷火炬手

刘(liu)阳(yang)

个人信息Personal Information

副教(jiao)授

硕士生导(dao)师

主要任(ren)职:无

性别:男

出生日期(qi):1985-12-12

毕(bi)业院校:大连理工大学

学位:博士

所(suo)在单位:盘锦校区(qu)海洋科学与(yu)技(ji)术学院

学科:环境工程

办公地点:大连理工大学(xue)盘锦校(xiao)区(qu)D06-403

联系(xi)方(fang)式:liuyang20180129@liviaday.com

电(dian)子邮箱:liuyang20180129@liviaday.com

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欢迎对空(kong)气及(ji)水体(ti)污染(ran)治理(li)修(xiu)复感(gan)兴趣的同学加入!课题(ti)组网(wang)站:


副教授/博士(2015.11-2018.1,清华大(da)学(xue)环境学(xue)院博士后)/硕导,大连理工大学研究生优秀导学团队成员(4/9)。自2009年以来一直从事纳米催化材料制备与表征及气液相污染物的吸附催化净化材料与技术方面的研究工作。现为国际SCI期刊Frontiers in Chemistry的REVIEW EDITOR、ACS会员、多个国际SCI期刊的审稿人(包括影响因子大于10的Journal of Materials Chemistry A);共发表SCI论文30篇(单篇最高影响因子16.683,Applied Catalysis B-Environmental)、撰写专著章节1篇、授权专利1项、主持国家级项目3项(包括国自然应急管理项目,批准号:21647001;国自然青年基金项目,批准号:21806016;并作为国家重点研发计划项目:重点行业固定污染源大气排放高精度在线监测技术研发及应用示范(项目编号:2016YFC0201100)子课题六“重点行业固定污染源关键污染物排放在线监测技术规范研究”参与单位负责人)。在(zai)国际会(hui)议“The 2nd International Symposium on Catalytic Science and Technology in Sustainable Energy and Environment”中获得优秀墙报展示(shi)奖,得到同行的认可。共参与国家“863”课题、国家自(zi)然科学基金(jin)面上项目等(deng)科研项目10余项。


主要研(yan)究内容(rong)包括:(1)苯(ben)系物、甲(jia)醛(quan)等挥发性(xing)(xing)有机物及异(yi)味气体的(de)吸附催化(hua)净(jing)化(hua)材料(liao)与技术;(2)通过结构调控手段,合成(cheng)高(gao)性(xing)(xing)能、长(zhang)效的(de)室温催化(hua)分解臭氧(yang)材料(liao);(3)有机废(fei)水(shui)(shui)、含(han)磷废(fei)水(shui)(shui)及含(han)重金属离子废(fei)水(shui)(shui)的(de)催化(hua)净(jing)化(hua);(4)Recycling wastes for environmetal catalysis。


论文Catalytic decomposition of gaseous ozone over todorokite-type manganese dioxides at room temperature: Effects of cerium modification (http://dx.doi.org/10.1016/j.apcata.2016.11.028)曾被评为Applied Catalysis A-General期刊的高被引文章!http://www.journals.elsevier.com/applied-catalysis-a-general/most-cited-articles


学生培养:

[6] 本科生杨济宁(2018级)、任慧博、房莉静(2019级)获2021年辽宁省大学生生命科学创新创业大赛 科学创意组三等奖

[5] 本科生杨济宁(2018级)获大连理工大学第(di)十(shi)七届(jie)“攀登杯”科技作品(pin)竞赛三等奖

[4] 研究(jiu)(jiu)(jiu)生(sheng)高伟(wei)(2018级)获2020年大连理工大学(xue)优秀(xiu)研究(jiu)(jiu)(jiu)生(sheng)称(cheng)号(hao)及(ji)2020年研究(jiu)(jiu)(jiu)生(sheng)国家奖学(xue)金

[3] 本科生杨济宁(2018级)在辽宁省第七届大学生创新创业年会获优秀论文一等奖,并作为大工唯一学生代表参加在重庆大学举办的第十三届全国大学生创新创业年会,我们的作品从200余份作品中脱颖而出,获评优秀学术论文(共20名),本人获优秀指导教师称号(共68人);在第五届全国大(da)(da)学(xue)生(sheng)生(sheng)命科(ke)学(xue)创新创业大(da)(da)赛(sai)获优秀(xiu)成果二等奖,本(ben)人(ren)获指(zhi)导教(jiao)师(shi)二等奖。

[2] 本科生(sheng)徐天怡(2016级)获2020届(jie)校级优秀毕(bi)业论文(wen)奖

[1] 本科生宗(zong)汶静(2016级)获大连理工(gong)大学第十五届“攀登杯”科技作品竞赛二等奖和最(zui)受欢迎作品奖

        

         毕业研究生(sheng)去(qu)向:

2018级研(yan) 高伟 天津理工(gong)大学 专职辅导员

2018级本(ben) 朱思瑞 科创(chuang)推免(mian)至大连理工大学(xue)环境学(xue)院读(du)研

2018级(ji)本(ben) 杨济宁(ning) 科(ke)创推免(mian)至天津大学直博


主持的科研项目:

[6] 大连(lian)理(li)工大学基本科研业务费二期,5万,2020.1-2021.12

[5] 国(guo)家自然科学基(ji)金 青年基(ji)金项目(mu),26万(wan),2019.1-2021.12.

[4] 国(guo)家(jia)重点研(yan)发计划项目(mu) 子课(ke)题六的参与单位(wei)负责人,30万,2016.7-2020.6.

[3] 国家自(zi)然科学基金 应急管理项目,5.9万,2017.1-2017.12.

[2] 企(qi)事业单位(wei)委托项目:高效(xiao)同步清除气态臭氧和苯污(wu)染物的催化材料,3万(wan),2018.3-2019.3.

[1] 大连(lian)理工大学基(ji)本科(ke)研业务费一期,5万,2018.4-2019.12.


教改成果:

[1] 刘阳,2019年教育部产学合(he)作(zuo)(zuo)协同育人项(xiang)目,合(he)作(zuo)(zuo)企业:山东创宇环保(bao)科技有限公司(si),1万(wan),2020.3-2021.2


授权专(zhuan)利:

[1] 张(zhang)彭(peng)义;曹(cao)冉冉;刘阳;用(yong)于臭氧分解的(de)催化剂的(de)制(zhi)备方(fang)法;ZL 2018 1 0241220.1


撰写的专(zhuan)著章节(jie):

[1] Yang Liu*, Catalytic decomposition of gas-phase benzene: material design, reaction mechanism and future prospect, Catalysis published by RSC, 2020, 32, 81-115.


已发表论(lun)文(wen)如下(xia)(*代表通讯作者(zhe)):

[30] Huan-Huan Yang (研), Jie Du, Minghuo Wu, Hao Zhou, Xianliang Yi, Jingjing Zhan, Yang Liu*Tin-Modified ɑ-MnO2 Catalyst with High Performance for Benzene Oxidation, Ozone Decomposition and Particulate Matter Filtration, Chemical Engineering Journal, ACCEPTED. 

[29] Ji-Ning Yang (大(da)创本科(ke)生), Hao Zhou, Xianliang Yi, Wei Gao, Ming-Shuang Niu, Yang Liu*Hard-NaCl Template-Regulated LiCoO2 Catalyst with Enhanced Activity for Aqueous and Gaseous Organics Elimination, Surfaces and Interfaces, ACCEPTED. 

[28] Yang Liu, Ming-Shuang Niu (研), Xianliang Yi, Geng Li, Hao Zhou, Wei Gao, Boron vacancies of mesoporous MnO2 with strong acid sites, free Mn3+ species and macropore decoration for efficiently decontaminating organic and heavy metal pollutants in black-odorous waterbodies, Applied Surface Science, .

[27] HaoZhou*, XuelingLi, Bingxin Hu, MinghuoWu, Yue Zhang, XianliangYi, Yang LiuJournal of Hazardous Materials 415(13):125743

[26] Xianliang Yi, Wentao Li, Yang Liu, Kaiming Yang, Minghuo Wu, Hao Zhou*, Effect of Polystyrene Microplastics of Different Sizes to Escherichia coli and Bacillus cereus, Bulletin of Environmental Contamination and Toxicology

[25] Wenjing Zong, Zhaoming Guo, Minghuo Wu, Xianliang Yi, Hao Zhou*, Siyuan Jing, Jingjing Zhan, Lifen Liu, Yang Liu*, Synergistic multiple active species driven fast estrone oxidation by δ-MnO2 in the existence of methanol, Science of The Total Environment, http://doi.org/10.1016/j.scitotenv.2020.143201.

[24] Zhaochuan Li, Hao Zhou, Yang Liu, Jingjing Zhan, Wentao Li, Kaiming Yang, Xianliang Yi*, Acute and chronic combined effect of polystyrene microplastics and dibutyl phthalate on the marine copepod Tigriopus japonicus, Chemosphere, 261 (2020) 127711.

[23] Chuang Fu , Xianliang Yi , Yang Liu , Hao Zhou*, Cu2+ activated persulfate for sulfamethazine degradation, Chemosphere, 257 (2020) 127294.

[22] Yang Liu*, Wei Gao (研究生), Hao Zhou*, Xianliang Yi, Yongming Bao, Highly reactive bulk lattice oxygen exposed by simple water treatment of LiCoO2 for catalytic oxidation of airborne benzene, Molecular Catalysis, 2020,  

[21] Si-Rui Zhu (大创项目(mu)本(ben)科生(sheng)), Ji-Ning Yang (大创项目(mu)本(ben)科生(sheng)), Yang Liu*, Wei Gao, Xianliang Yi, Hao Zhou, Minghuo Wu, Synergistic interaction of lithium cobalt oxide with sulfite to accelerate the degradation of organic aqueous pollutants, Materials Chemistry and Physicshttp://doi.org/10.1016/j.matchemphys.2020.123123. 大(da)创项目本科生半年时间的工作,给予厚望、从ES&T投(tou)下来的文章(zhang)(zhang),文章(zhang)(zhang)立(li)意还不错,仍需努(nu)力。 

[20] Pengyu Xiao, Yang Liu, Wenjing Zong, Jin Wang, Minghuo Wu, Jingjing Zhan, Xianliang Yi, Lifen Liu, Hao Zhou*, Highly selective colorimetric determination of catechol based on the aggregation-induced oxidase-mimic activity decrease of delta-MnO2, RSC Advances, 2020, 10, 6801-6806. 

[19] Yang Liu*, Lei Yan (本科生), Wei Gao (研究生), Si-Rui Zhu (本科生), Jingjing Zhan, Ranran Cao, Hao Zhou, Samarium doping boosts catalytic oxidation of airborne benzene over todorokite-type MnO2, Applied Surface Science, doi.org/10.1016/j.apsusc.2019.144043.

[18] Wei Gao (研究生), Yang Liu*, Hao Zhou, Yongming Bao, Jingjing Zhan, in situ Nitrogen Doping of Lithium Cobalt Oxide via Rhodamine B Degradation Offers the Reused Material a Better Activity, Applied Surface Science, doi.org/10.1016/j.apsusc.2019.143972. 本人第一篇催化降解液相污染物文章.

[17] Guochen Wang, Yang Liu, Minghuo Wu, Wenjing Zong, XianLiang Yi, Jingjing Zhan, Lifen Liu, Hao Zhou*, Coupling the phenolic oxidation capacities of a bacterial consortium and in situ-generated manganese oxide in a moving bed biofilm reactor (MBBR), 2019, Water Research doi.org/10.1016/j.watres.2019.115047.

[16] Zhichen Si, Xiujuan Zhang, Yang Liu, Hao Zhou, Xiaofei Chen, Xinqi Yang, Hongkun Chen, Jingjing Zhan*, Revisiting the preparation of titanium dioxide: aerosol-assisted production of photocatalyst with higher catalytic activity than P25, 2019, J. Mater. Sci.  doi.org/10.1007/s10853-019-03950-6.

[15] Tianchi Dai (本科(ke)生), Hao Zhou, Yang Liu*, Ranran Cao, Jingjing Zhan, Lifen Liu, Ben W.-L. Jang*, Synergy of Lithium, Cobalt, and Oxygen Vacancies  in Lithium Cobalt Oxide for Airborne Benzene Oxidation: A Concept of Reusing Electronic Wastes for Air Pollutant Removal, ACS Sustainable Chem. Eng. 2019, 7, 5072-5081.

[14] Yang Liu*, Hao Zhou, Ranran Cao, Xingyun Liu (本科生), Pengyi Zhang*, Jingjing Zhan, Lifen Liu, Facile and green synthetic strategy of birnessite-type MnO2 with high efficiency for airborne benzene removal at low temperatures, Applied Catalysis B: Environmental 245 (2019) 569-582.

[13] Yang Liu*, Wei Gao (研究生), Jingjing Zhan*, Yongming Bao, Ranran Cao, Hao Zhou, Lifen Liu, One-pot synthesis of Ag-H3PW12O40-LiCoO2 composites for thermal oxidation of airborne benzene, Chemical Engineering Journal 375 (2019) 121956.

[12] Yang Liu, Pengyi Zhang*, Jingjing Zhan, Lifen Liu,  Heat treatment of MnCO3: An easy way to obtain efficient and stable MnO2 for humid O3 decomposition, Applied Surface Science 463 (2019) 374-385.

[11] Yang Liu*, Hao Zhou, Ranran Cao, Tao Sun (本科生), Wenjing Zong (本(ben)科(ke)生(sheng)), Jingjing Zhan, Lifen Liu, Different behaviors of birnessite-type MnO2 modified by Ce and Mo for removing carcinogenic airborne benzene, Materials Chemistry and Physics 221 (2019) 457-466.

[10] Yang Liu*, Wenjing Zong (本科生), Hao Zhou, Dingsong Wang (本科生), Ranran Cao, Jingjing Zhan, Lifen Liu and Ben W.-L. Jang*, Tuning the interlayer cations of birnessite-type MnO2 to enhance its oxidation ability for gaseous benzene with water resistance, Catal. Sci. Technol., 2018, 8, 5344-5358.

[9] Yang Liu, Wenjuan Yang, Pengyi Zhang*, Junying Zhang, Nitric acid-treated birnessite-type MnO2: An efficient and hydrophobic material for humid ozone decomposition, Applied Surface Science 442 (2018) 640-649.

[8] Yang Liu and Pengyi Zhang*, Removing Surface Hydroxyl Groups of Ce-Modified MnO2 To Significantly Improve Its Stability for Gaseous Ozone Decomposition, J. Phys. Chem. C 2017, 121, 23488-23497.

[7] Yang Liu, Pengyi Zhang*, Catalytic decomposition of gaseous ozone over todorokite-type manganese dioxides at room temperature: Effects of cerium modification, Applied Catalysis A: General 530 (2017) 102-110.

[6] Yang Liu, Xiao-Song Li, Jing-Lin Liu, Junliang Wu, Daiqi Ye and Ai-Min Zhu*, Cycled storage-discharge (CSD) plasma catalytic removal of benzene over AgMn/HZSM-5 using air as discharge gas, Catal. Sci. Technol., 2016, 6, 3788-3796.

[5] Yang Liu, Xiao-Song Li, Jing-Lin Liu, Chuan Shi, Xiaobing Zhu,* Ai-Min Zhu and Ben W.-L. Jang*, Ozone catalytic oxidation for ammonia removal from simulated air at room temperature, Catal. Sci. Technol., 2015, 5, 2227-2237.

[4] Yang Liu, Xiao-Song Li, Chuan Shi, Jing-Lin Liu, Ai-Min Zhu* and Ben W.-L. Jang*, Ozone catalytic oxidation of adsorbed benzene over AgMn/HZSM-5 catalysts at room temperature, Catal. Sci. Technol., 2014, 4, 2589-2598.

[3] Yang Liu, Xiaosong Li, Jinglin Liu, Chuan Shi, Aimin Zhu*, Ozone catalytic oxidation of benzene over AgMn/HZSM‐5 catalysts at room temperature: Effects of Mn loading and water content, Chinese Journal of Catalysis 35 (2014) 1465-1474.

[2] Yajie Yang, Jingbo Jia, Yang Liu, Pengyi Zhang*, The effect of tungsten doping on the catalytic activity of α-MnO2 nanomaterial for ozone decomposition under humid condition, Applied Catalysis A, General 562 (2018) 132-141.

[1] Ranran Cao, Pengyi Zhang*, Yang Liu, Xianming Zheng, Ammonium-treated birnessite-type MnO2 to increase oxygen vacancies and surface acidity for stably decomposing ozone in humid condition, Applied Surface Science doi.org/10.1016/j.apsusc.2019.143607.

    

    更多(duo)信息获取,请访问本人(ren)的(de)ResearchGate主页:

 


  • 研究方向Research Focus
  • 社会兼职Social Affiliations
  • [1] 苯系物、甲醛等挥发性有机物及恶臭气体的吸附催化净化材料与技术(臭氧催化氧化、等离子体协同催化、选择催化氧化(SCO)除氨). [2] 通过结构调控手段(如增加比表面积、暴露高活性晶面及金属掺杂等),合成高性能长效室温催化分解臭氧材料. [3] 通过in situ Raman及in situ DRIFTs技术,探索催化反应机理.
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