2020年齊魯工業(yè)大學(xué)材料學(xué)院“泰山學(xué)者”團隊考研調(diào)劑..

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  • 院校名稱:齊魯工業(yè)大學(xué)
  • 所在省份:山東
  • 調(diào)劑專業(yè): 詳細查看正文
  • 學(xué)術(shù)類別:全日制
  • 發(fā)布日期:2020-02-23
  • 調(diào)劑要求:單科和總分均過國家線,必須考數(shù)學(xué)??荚嚳偡种皇乔半A段成績的一種體現(xiàn)形式,但并非全部。我們更看重學(xué)生的整體學(xué)科背景、專業(yè)知識以及科研經(jīng)歷,歡迎對研究新思路有濃厚興趣、自主能力強,具有團隊意識的同學(xué)報考。

    1.團隊組經(jīng)費充足,實驗條件較好。團隊擁有200平實驗室,MOFs及能源方向的合成及表征設(shè)備齊全,購置有IGA002智能重量吸附分析儀、美國普林斯頓PMC多通道電化學(xué)工作站、美國普林斯頓636A旋轉(zhuǎn)環(huán)盤電極、武漢藍電CT2001A電池測試系統(tǒng)、日本島津UV-2700紫外可見分光光度計、日本島津GC-2014在線氣相色譜儀、英國Hiden HPR-20 R&D質(zhì)譜儀、日本Belsorp-max全自動超高精度三站氣體吸附分析儀;團隊擁有包含VASP、TSS、LAMMPS、Forcefields模塊的MedeA正版軟件,可以滿足理論計算的需求。此外,團隊后續(xù)有場發(fā)射掃描電鏡采購計劃,在未來三年內(nèi)會根據(jù)團隊發(fā)展購置其他相應(yīng)儀器設(shè)備等。

    2.郵箱:yanlt@qlu.edu.cn 聯(lián)系人:閆老師,請感興趣的同學(xué)將個人簡歷發(fā)送至上述郵箱

    3.導(dǎo)師簡介:

    趙學(xué)波教授,英國紐卡斯爾大學(xué)博士、博士后,教授、博士生導(dǎo)師,中國科學(xué)院“百人計劃”獲得者,山東省“泰山學(xué)者”特聘專家,青島西海岸新區(qū)領(lǐng)軍人才,山東省氫能源與燃料電池產(chǎn)業(yè)聯(lián)盟專家。長期從事新能源、新能源材料、氫能綜合利用等領(lǐng)域的研發(fā)工作?;貒ぷ骱?,先后主持4項國家自然科學(xué)基金面上項目,,并主持山東省“泰山學(xué)者”資助項目,(2016-2020)200萬元、中國科學(xué)院知識創(chuàng)新工程重要方向項目KJCX2-YW-W34,(2010-2013),200萬元、及其他地區(qū)、院所類創(chuàng)新項目5項,累積經(jīng)費800余萬元。近年來,在國際著名學(xué)術(shù)期刊Science、Nature-Chemistry、JACS、Angew、Advanced Functional Materials、Nano Energy、ACS Nano、Chemistry of Meterials、Chemical Communications等學(xué)術(shù)期刊上發(fā)表100多篇SCI收錄的研究論文,被國內(nèi)外同行引用6000多次。獲發(fā)明專利授權(quán)6項(其中1項為國際發(fā)明專利)。2016、2017連續(xù)兩年入選英國皇家化學(xué)會Top 1% 高被引中國作者榜單。2004年榮獲國家優(yōu)秀自費留學(xué)生獎和英國燃燒工程協(xié)會頒發(fā)的杰出研究成就獎“The Derek Ezra Award 2004”。在氫氣儲存和氫同位素分離研究領(lǐng)域做出過具有世界影響的重要學(xué)術(shù)貢獻,相關(guān)成果以第一作者身份發(fā)表在國際頂級期刊《Science》上(2004,306, 1012-1015),單篇引用達到1100多次。

    4.研究領(lǐng)域:

    學(xué)術(shù)生涯始于石油加工領(lǐng)域的教學(xué)和科研,出國前(2000年以前)主持和參與了多項石油煉制和天然氣處理與加工等領(lǐng)域的科研項目。在英國求學(xué)和工作期間(2000-2010),從事多孔碳材料和多孔金屬有機框架化合物(MOFs)的合成與應(yīng)用以及非常規(guī)天然氣頁巖氣開發(fā)等研究,具體包括氫氣儲存、氫同位素分離、甲烷儲存、二氧化碳捕集、焦油水蒸氣重整制氫、頁巖孔隙評價及頁巖氣儲量預(yù)測等。2010年加盟中科院青島生物能源與過程研究所,組建了“儲氫及新型納孔材料”團隊,從事新型納孔材料的制備和應(yīng)用、儲氫和氫同位素分離、天然氣凈化和分離、小分子石油烴類分離等研究工作。2014年調(diào)入中國石油大學(xué)(華東)非常規(guī)油氣與新能源研究院,創(chuàng)建新能源科學(xué)與技術(shù)研究中心,從事新能源、新能源材料、氫能綜合利用等領(lǐng)域的研發(fā)工作。2019年調(diào)入齊魯工業(yè)大學(xué)(山東省科學(xué)院)材料科學(xué)與工程學(xué)院繼續(xù)從事新能源材料方面的研究。

    5.近期及代表成果:

    1.        Superstructure of a Metal-Organic Framework Derived from Microdroplet Flow Reaction: An Intermediate State of Crystallization by Particle Attachment,Ying, Wang,Li, Liangjun*;Liang, Huimin;Xing, Yanlong;Yan, Liting;Dai, Pengcheng;Gu, Xin;Zhao, Guoming;Zhao, Xuebo*; ACS Nano, 2019, 13(3): 2901-2912

    2.        Metal-organic frameworks: a promising platform of constructing non-noble electrocatalysts for oxygen-reduction reaction,Liangjun Li, Jiangxiu He, Ying Wang, Xiaoxia Lv, Xin Gu, Pengcheng Dai, Dandan Liu, Xuebo Zhao*,Journal of Materials Chemistry A,2019, 7(5): 1964-1988 (邀請綜述)

    3.        One-step and Scalable Synthesis of Ni2P Nanocrystals Encapsulated in N,P-codoped Hierarchical Porous Carbon Matrix using a Bipyridine and Phosphonate linked Nickel Metal-organic Framework as Highly Efficient Electrocatalysts for Overall Water Splitting,Liting Yan,Huimin Jiang,Ying Wang,Liangjun Li,Xin Gu,Pengcheng Dai,Dandan Liu,Si-Fu Tang,Guoming Zhao,Xuebo Zhao*,K. Mark Thomas*, Electrochimica Acta,2019,297,755-766

    4.        Titanosilicate Derived SiO2/TiO2@C Nanosheets with Highly Distributed TiO2 Nanoparticles in SiO2 Matrix as Robust Lithium Ion Battery Anode, Zhang, li; Gu, Xin; Yan, Chunliu; Zhang, Shuo; Li, Liangjun; Jin, Yingjie; Zhao, Shanlin; Wang, Haiyan; Zhao, Xuebo*;ACS Applied Materials & Interfaces,2018,10 (51), 44463–44471

    5.        Paper-Derived Flexible 3D Interconnected Carbon Microfiber Networks with Controllable Pore Sizes for Supercapacitors, Dai, Pengcheng; Xue, Yanming; Zhang, Shuo; Cao, Lei; Zhao, Xuebo*,ACS applied materials & interfaces,2018,10,43, 37046-37056

    6.        Highly dispersed Zn nanoparticles confined in nanoporous carbon network: promising anode materials for sodium and potassium ion batteries, Chunliu Yan,  Xin Gu,  Li Zhang,  ying wang,  Liting Yan,  Dandan Liu,  Liangjun Li,  Pengcheng Dai  and  Xuebo Zhao*, J. Mater. Chem. A, 2018, 6, 17371-17377

    7.        Bottom-Up Fabrication of Ultrathin 2D Zr Metal-Organic Framework Nanosheets through a Facile Continuous Microdroplet Flow Reaction,Wang, Y; Li, LJ; Yan, LT; Gu, X; Dai, PC; Liu, DD; Bell, JG; Zhao, GM; Zhao, XB* ; Thomas, KM*;Chemistry of Materials,2018,30,9: 3048-3059

    8.        Nickel metal-organic framework implanted on graphene and incubated to be ultrasmall nickel phosphide nanocrystals acts as a highly efficient water splitting electrocatalyst,Yan, LT ; Jiang, HM; Xing, YL; Wang, Y; Liu, DD ; Gu, X; Dai, PC ; Li, LJ;Zhao, XB*,Journal of Materials Chemistry A,2018, 6, 4,1682-1691

    9.        Carbonates (bicarbonates)/reduced graphene oxide as anode materials for sodium-ion batteries,Gu, X ; Yan, CL; Yan, LT; Cao, L ; Niu, FE; Liu, DD ; Dai, PC ; Li, LJ; Yang, J ; Zhao, XB*,Journal of Materials Chemistry A,2017,5,47,24645-24650

    10.        Missing-node directed synthesis of hierarchical pores on a zirconium metal-organic framework with tunable porosity and enhanced surface acidity via a microdroplet flow reaction,Wang, Y; Li, LJ; Dai, PC ; Yan, LT; Cao, L ; Gu, X; Zhao, XB* ,Journal of Materials Chemistry A ,2017,5, 42,22372-22379

    11.        Metal-Organic Frameworks Derived Nanotube of Nickel-Cobalt Bimetal Phosphides as Highly Efficient Electrocatalysts for Overall Water Splitting, Yan, LT ; Cao, L ; Dai, PC; Gu, X; Liu, DD; Li, LJ; Wang, Y ; Zhao, XB*,Advanced Functional Materials,2017,27,40,1703455(高被引論文)

    12.        Exceptional high selectivity of hydrogen/methane separation on a phosphonate-based MOF membrane with exclusion of methane molecules, Yang, QP ; Li, LJ; Tan, WQ ; Sun, YJ; Wang, HL; Ma, JP ; Zhao, XB* , Chemical Communications, 2017,53, 70, 9797-9800

    13.        High efficiency organic solar cells based on amorphous electron-donating polymer and modified fullerene acceptor, Xiao, B ; Zhang, ML; Yan, J ; Luo, GP ; Gao, K ; Liu, JY ; You, QL ; Wang, HB ; Gao, C; Zhao, BF ; Zhao, XB*; Wu, HB ; Liu, F , NANO ENERGY, 2017, 39, 478-488

    14.        High Oxygen Reduction Activity on a Metal-Organic Framework derived Carbon Combined with High Degree of Graphitization and Pyridinic-N Dopants. Li, L., P. Dai, X. Gu, Y. Wang, L. Yan and X. Zhao*. Journal of Materials Chemistry A ,2017, 5: 789-795(高被引論文)

    15.        In Situ Synthesis Strategy for Hierarchically Porous Ni2P Polyhedrons from MOFs Templates with Enhanced Electrochemical Properties for Hydrogen Evolution. Liting Yan, Pengcheng Dai, Ying Wang, Xin Gu, Liangjun Li, Lei Cao, and Xuebo Zhao*, ACS Appl. Mater. Interfaces, 2017, 9 (13), 11642–11650

    16.        Hierarchical tubular structures constructed from rutile TiO2 nanorods with superior sodium storage properties. Xin Gu, Liangjun Li, Ying Wang, Pengcheng Dai, Hongbo Wang, Xuebo Zhao*. Electrochimica Acta ,2016, 211, 77–82

    17.        Coaxial MnO/N-doped carbon nanorods for advanced lithium-ion battery anodes. Xin Gu, Jie Yue, Liang Chen, Shuo Liu, Huayun Xu, Jian Yang *, Yitai Qian * and Xuebo Zhao*. J. Mater. Chem. A, 2015, 3, 1037-1041 (高被引論文)

    18.        Solvothermal Metal Metathesis on a Metal Organic Framework with Constricted Pores and the Study of Gas Separation. Liangjun Li, Haitao Xue, Ying Wang, Pinhui Zhao, Dandan Zhu, Min Jiang, and Xuebo Zhao* ,ACS Appl. Mater. Interfaces ,2015, 7(45), 25402-25412

    19.        Hysteretic Gas and Vapor Sorption in Flexible Interpenetrated Lanthanide-Based Metal–Organic Frameworks with Coordinated Molecular Gating via Reversible Single-Crystal-to-Single-Crystal Transformation for Enhanced Selectivity. Chao Wang, Liangjun Li, Jon G. Bell, Xiaoxia Lv, Sifu Tang, Xuebo Zhao*, and K. Mark Thomas*. Chem. Mater., 2015, 27 (5), 1502–1516

    20.        General Synthesis of MnOx (MnO2, Mn2O3, Mn3O4, MnO) Hierarchical Microspheres as Lithium-ion Battery Anodes. Xin Gu, Jie Yue, Liangjun Li, Haitao Xue, Jian Yang,* Xuebo Zhao*,Electrochimica Acta, 184 (2015) 250-256

    21.        High CO2/N2 and CO2/CH4 selectivity in a chiral metal-organic framework with contracted pores and multiple functionalities, Xiaoxia Lv, Liangjun Li, Sifu Tang, Jinjun Cai, Xuebo Zhao*, Chem. Commun., 2014, 50 , 6886-6889

    22.        Enhanced uptake and selectivity of CO2 adsorption in a hydrostable metal-organic frameworks via incorporating methylol and methyl groups, Chao Wang, Liangjun Li, Sifu Tang and Xuebo Zhao*, ACS Appl. Mater. Interfaces, 2014, 6(19), 16932–16940

    23.        Gas Storage and Diffusion through Nano-Cages and Windows in Porous Metal Organic Framework Cu2(2,3,5,6-tetramethylbenzene-1,4-diisophthalate)(H2O)2, Liangjun Li, Sifu Tang, Jon G Bell, Xiaoxia Lv, Xianrui Xu, Yanlong Xing, Xuebo Zhao*, Mark Thomas*, Chemistry of Materials, 2014, 26 (16), 4679–4695

    24.        Nitrogen-doped porous carbons from bipyridine-based metal-organic frameworks: Electrocatalysis for oxygen reduction reaction and Pt-catalyst support for methanol electrooxidation, Dandan Zhu, Lianglun Li, Jinjun Cai, Xiaoxia Lv, Min Jiang, Xuebo Zhao*, Carbon, 2014, 79, 544-553

    25.        Poly(vinylidene chloride)-based carbon with ultrahigh microporosity and outstanding performance for CO2 capture and H2 storage,Jinjun Cai, Jingbo Qi, Chunpeng Yang, Xuebo Zhao*,ACS Applied Materials & Interfaces,2014,6, 3703?3711

    26.        Oxygen Reduction in the Nanocage of Metal-Organic Frameworks with A Electron Transfer Mediator, Min Jiang, Liangjun Li,Dandan Zhu, Hongyu Zhang and Xuebo Zhao*, Journal of Materials Chemistry-A,2014,2,5323-5329

    27.        High gas storage capacities and stepwise adsorption in a UiO type metal-organic framework incorporating Lewis basic bipyridyl sites,Liangjun Li, Sifu Tang, Chao Wang, Xiaoxia Lv, Min Jiang, Huaizhi Wu, Xuebo Zhao*,ChemComm,2014,50, 2304-2307

    28.        Large Surface Area Ordered Porous Carbons via Nanocasting Zeolite 10X and High Performance for Hydrogen Storage Application, Jinjun Cai, Liangjun Li, Xiaoxia Lv, Chunpeng Yang, Xuebo Zhao*, ACS Applied Materials & Interfaces, 2014, 6,167-175

    29.        Rationally tuned micropores within enantiopure metal-orgnic frameworks for highly selective separation of acestylene and ethylene, S.C.Xiang, Z. Zhang, C.G.Zhao, K.Hong, X.B.Zhao, D.R.Ding, M.H.Xie, C.D.Wn, M.C.Das, R.Gill, K.M.Thomas, B.L.Chen,Nature-Communications,2011,2,F(xiàn)eb22(高被引論文)

    30.        Protecting group and pore-discriminating adsorption properties of a hydrophilic-hydrophobic metal-organic framework, M.I.H.Mohideen, B.Xiao, P.S.Wheatley, Y.Li, A.M.Z.Slawin, N.Cessford, T.Duren, X.B.Zhao, R.Gill, K.M.Thomas, J.M.Griffin, S.E.Ashbrook, R.E.Morris, Nature-Chemistry,2011,3,304-310

    31.        Chemically Blockable Transformation and Ultra-selective Low Pressure Gas Adsorption in a Metal Organic Framework, Bo Xiao, P.J. Byrne, P.S. Wheatley, D.S Wragg, Xuebo Zhao, A. J. Fletcher, K.M.Thomas, W.Zhou and R.E.Morris, Nature-Chemistry, 2009,1(4), 289-294

    32.        Surface interactions and quantum kinetic molecular sieving for H-2 and D-2 adsorption on a mixed metal-organic framework material, B. Chen, Xuebo Zhao, A. Putkham, K. Hong, S. Ma, E. B Lobkovsky, E. J Hurtado, A. J. Fletcher, K. M. Thomas*, J. Am. Chem. Soc, 2008, 130, 6411-6423(高被引論文)

    33.        High Capacity Hydrogen and Nitric Oxide Adsorption and Storage in a Metal-Organic Framework, B. Xiao, P. S. Wheatley, Xuebo Zhao, A. J. Fletcher, S. Fox, A. G. Rossi, S. Bordiga, L. Regli, K. M. Thomas* and R. E. Morris*, J. Am. Chem. Soc. 2007, 129, 1203-1209

    34.        High H2 Adsorption by Coordination-Framework Materials, Xiang Lin, Junhua Jia, Xuebo Zhao, K. M. Thomas, A. J. Blake, G. S. Walker, N. R. Champness, P. Hubberstey, M. Schroder*, Angew. Chem. Int. Edit., 2006, 45, 7358-7364

    35.        Hysteretic Adsorption and Desorption of Hydrogen by Nanoporous Metal-Organic Frameworks, Xuebo Zhao, Bo Xiao, Ashleigh J. Fletcher, K. Mark Thomas*, Darren Bradshaw, Matthew J. Rosseinsky*, Science, 2004, 306, 1012-1015

    文章來源:2020年齊魯工業(yè)大學(xué)材料學(xué)院“泰山學(xué)者”團隊考研調(diào)劑..