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Mater.I{40Y*Ng Re ]ċ[f[/ge700YO{0^ċ[V[6qyf[Wёyv35y ,{Nyby^w~vNRyv28N 2016t^^]_S:SReRNQNMbyv4y 0^\O:NlVThe SMART LOIRE VALLEY GENERAL Programme LE STUDIUM Research FellowshipyvvVEċ[N[0  "# /0 AB JK _l oz |                     ", 0U Y                 $) -D HP TW X] ot      ,- >? JK ST hi }~         F+ HN2009t^NNvNN{TtPSvxvz]\O0yr+R/f(WPWzzvPSS^T5uPSS^vtxvzebwQ g]vyrr !kcQNWN S^vV tPSxvzve_NqQShN55{f[/ge N,{N\O(qQ T,{N\O)ShveSbNat. Commun., Phys. Rev. Lett., J. Am. Chem. Soc.TAngew. Chem. Int. Ed.I{(_(u>2000)02018t^_ACS catalysis ECR award 2019t^eQ ,{ASNybV[ Rt^CSN R 2019t^_ _'Y\qRt^f[ yS0bbyxyvSb͑'YxvzR0Rt^yf[WёyvI{0 Nh'`W 1 Towards Computational Design of Catalysts for CO2 Selective Reduction via Reaction Phase Diagram Analysis, Adv. Theory Simul. 2 (2019) 1800200 (qQ T). 2 Towards Fundamentals of Confined Electrocatalysis in Nanoscale Reactors, J. Phys. Chem. Lett., 10 (2019) 533-539 (\O). 3 Reaction Mechanisms of Well-Defined Metal-N4 Sites in Electrocatalytic CO2 Reduction, Angew. Chem. Int. Ed., 2018, 57, 16339~16342 (qQ TN\O). 4 Understanding Trends in Electrochemical Carbon Dioxide Reduction Rates, Nat. Commun., 2017, 8, 15438 (qQ TN\O). 5 Toward Fundamentals of Confined Catalysis in Carbon Nanotubes, J. Am. Chem. Soc., 2015, 137(1): 477~482 (,{N\O). 6 Stabilization Mechanism of ZnO Nanoparticles by Fe Doping, Phys. Rev. Lett., 2014, 112(10) 106102 (,{N\O). B CG HX Ze fl mt             0 12    @D GH IJ    AE HI JK    %)  73ubP Nbg~(1114~) 73ubP Nbg~(503~) 73ubP Nbg~(DNL1901~) 73ubP Nbg~(DNL0603~) 73ubP Nbg~(502~) 7H)Y 73ubP Nbg~(DNL1702~) 7Y0 0n23N672: < >HBCjZF I|,KPN-QTU(WdY Z/ <\ J] _h`ac?ef)ij-ccB g2ـ )u  dMbP?_*+%,&ffffff?'ffffff?(?)?MPantum P3000 Series 4dXXA4PRIVdQSndeo Watermark]Times New Roman6d22C:\Users\Public\Pantum\form\Times New Roman " dXX333333?333333?&<3U} $>} $>} $ >} mB} $ =, EJE ? ? ? @~ C? 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