徐静（副教授）-ag旗舰厅在线

»姓名：徐静

»系属：材料化学

»学位：博士

»职称：副教授

»专业：材料科学与工程

»导师类别：硕导

»电子邮箱：xujing@upc.edu.cn

»联系电话：13465810429

»通讯地址：山东省青岛市黄岛区长江西路66号

»概况

 ◎研究方向

1、新能源材料：研究燃料电池、锂离子电池、超级电容器和电解水等电极材料的微观结构与性能，制备经济、高效的电化学电极材料。

 ◎教育经历

2013.09-2016.07，中国石油大学（华东），化学，博士

2006.09-2009.07，中国石油大学（华东），无线电物理，硕士

2002.09-2006.07，中国石油大学（华东），材料物理，学士

 ◎工作经历

2019.12-至今，中国石油大学（华东），副教授

2018.09-2019.09，美国伊利诺伊大学香槟分校，访问学者

2016.09-2019.12，中国石油大学（华东），讲师

2016.09-2018.09，中国石油大学（华东），博士后

 ◎主讲课程

《无机材料合成及工艺》、《油气田化学概论》、《材料化学实验》

 ◎指导研究生及博士后

累计指导硕士生6人。

 ◎承担项目

2021年，山东省高等学校“青创科技支持计划”—“氢能先进催化材料创新团队”骨干成员。

1、国家自然科学基金项目3项

2019.01—2021.12，用于h₂电化学氧化的ni基纳米催化剂研究（项目编号21805307），主持，结题。

2014.01—2018.12，多元活性金属ldh/石墨烯复合材料的设计、合成与超电容机制研究（项目编号21476264），参与，结题。

2019.01—2022.12，基于表面氟钝化多孔炭正极和硬碳@石墨烯负极的高性能锂离子电容器研究（项目编号51877216），参与，结题。

2、国家重点研发计划

2022.12—2026.12，靶向加氢介孔孔道限域结构中催化活性位设计与构建（项目编号2022yfa1503402），参与，在研。

3、中石油创新基金1项

2018.07—2020.06，氢气高效利用的燃料电池催化剂新技术研究（项目编号2018d-5007-0504），主持，结题。

4、青岛市基金1项

2017.12—2019.12，碳包覆非贵金属纳米颗粒电子结构及电催化析氢活性的理论研究（项目编号by20170215），主持，结题。

5、中国石油大学基金1项

2017.01—2018.12，高活性金属颗粒@石墨烯析氢电催化剂的分子设计和制备（项目编号y1710004），主持，结题。

 ◎获奖情况

中国石油大学（华东）优秀本科毕业设计指导教师，2022年

 ◎论文

[32] jing xu, tao wang, chenxi geng, yuchao zhen, meixin lin, zhenyu huang, ye shi, lianming zhao*, wei xin, transition metal single-atoms on v₃c₂o₂ mxene nanosheets for efficient methane-to-methanol conversion: first-principles investigation. acs applied nano materials 2024, https://doi.org/10.1021/acsanm.4c03949.

[31] lianming zhao*, meixin lin, zhenyu huang, yuchao zhen, tao wang, yizhu wang, ding tao, guangkun yan, zeyue peng, shouao li, jing xu*, weixing, theoretical study of catalytic performance of pristine m₂c and oxygen-functionalized m₂co₂ mxenes as cathodes for li−n₂ batteries. acs applied materials & interfaces 2024, 16, 33710−33722.

[30] liwei zhu, jiajun wang, jie liu, ruxin wang, meixin lin, tao wang, yuchao zhen, jing xu,* lianming zhao*, first principles study of the structure–performance relation of pristine w_{n 1}c_n and oxygen-functionalized w_{n 1}c_no₂ mxenes as cathode catalysts for li-o₂ batteries. nanomaterials 2024, 14, 666.

[29] lianming zhao*, yuchao zhen, liwei zhu, yanfu tong, tao wang, meixin lin, zhenyu huang, wei xing, jing xu*. single-metal-atom-anchored run₂ monolayers: a high-performance electrocatalyst for alkaline hydrogen oxidation reactions. applied surface science 2024, 654, 159448.

[28] jiajun wang,^#jing xu,^# bingyu li, meixin lin, tao wang, yuchao zhen, zhenyu huang,wei xing, lianming zhao.* theoretical study of catalytic performance of wn mxenes as cathodes for li-o₂ batteries: effects of surface functionalization and atomic layers. applied surface science 2023, 638, 158027.

[27] lianming zhao,* yanfu tong, yanping ding, weichao kong, jianjun wang, bingyu li, yuchao zhen, jing xu,* wei xing. designing interface structures of nickel with transition metal nitrides for enhanced hydrogen electro-oxidation. surfaces and interfaces 2023, 37, 102659.

[26] yanfu tong,^#jing xu,^# yanping ding, weichao kong, bingyu li, jiajun wang, wei xing, lianming zhao.* theoretical insights into the hydrogen oxidation reaction on single metal atoms anchored on the edge of mos₂ nanosheets. computational materials science 2023, 218, 111921.

[25] lianming zhao,* xiaonan han, yanfu tong, yanping ding, weichao kong, jiajun wang, bingyu li,  jing xu,* peng bai, xing wei. constructing dual active sites for synergistic electrocatalysis of hydrogen oxidation: single-metal-atoms anchored on wc₂o₂ mxene. materials chemistry frontiers 2022, 6, 2458−2467.

[24] weichao kong,^# jing xu,^# yanfu tong, yanping ding, jiajun wang, bingyu li, wei xing, lianming zhao.* constructing dual active sites for efficient alkaline hydrogen evolution: single-metal-atoms supported on bc₂n monolayers. physical chemistry chemical physics 2022, 24, 29141.

[23] yanping ding, lianming zhao,* yanfu tong, weichao kong, bingyu li, jiajun wang, xiaonan han, wei xing, jing xu. designing high-performance se-decorated edges of mose₂ nanostripes for the hydrogen oxidation reaction: effect of transition metal doping. the journal of physical chemistryc 2022, 126, 13617−13628.

[22] lianming zhao*, xiaonan han, weichao kong, yanfu tong, yanping ding, jiajun wang, bingyu li, yonghui liu, jing xu*, wei xing. graphene supported single metal atom catalysts for the efficient hydrogen oxidation reaction in alkaline media. catalysis science & technology2022, 12: 530–541.

[21] xiaoning wang, xuejin li, tonghui cai, yongpeng cui, dongqing kong, jing xu, haoyu hu, yesheng wang, han hu, xiuli gao, yanpeng li, qingzhong xue, zifeng yan,lianming zhao*, wei xing*. enhancing hydrogen oxidation electrocatalysis of nickel-based catalyst by simultaneous chemical anchoring and electronic structure regulation. chemical engineering journal 2021, 425: 130654.

[20] yesheng wang, yongpeng cui, dongqing kong, xiaoning wang, bin li, tonghui cai, xuejin li, jing xu, yanpeng li, youguo yan, han hu, mingbo wu, qingzhong xue, zifeng yan, lianming zhao*, wei xing*. stimulation of surface terminating group by carbon quantum dots for improving pseudocapacitance of ti₃c₂t_x mxene based electrode. carbon 2021, 180: 118–126.

[19]lianming zhao*, yonghui liu, xiaonan han, yanping ding, weichao kong, yanfu tong, jing xu*, wei xing. theoretical study of the alkaline hydrogen oxidation reaction on ni-based nanocluster catalysts: effects of graphene supports and dopants. applied surface science 2021, 567: 150895.

[18] pingping wu, haijun liu, yunxiang cao, shibo xi, zhiheng li, zhengke he, lei song, jing xu, peng bai*, lianming zhao*, ****************, zifeng yan.mesostructured cellular foam silica supported au–pt nanoalloy: enrichment of d-state electrons for promoting the catalytic synergy. microporous and mesoporous materials 2021, 316: 110982.

[17] lianming zhao,* haijun liu, yonghui liu, xiaonan han, jing xu, wei xing, and wenyue guo*. mechanistic insights into the hydrogen oxidation reaction on ptni alloys in alkaline media: a first-principles investigation. acs applied materials & interfaces 2020, 12, 40248−40260.

[16] haijun liu, lianming zhao,* yonghui liu, jing xu, houyu zhu, wenyue guo*. enhancing hydrogen evolution activity by doping and tuning the curvature of manganeseembedded carbon nanotubes. catalysis science & technology 2019 9: 5301–5314.

[15] jing xu, xiaochen li, xuejin li*, shuo li, lianming zhao, dandan wang, wei xing, zifeng yan*. free-standing cotton-derived carbon microfiber@nickel-aluminum layered double hydroxides composite and its excellent capacitive performance. journal of alloys and compounds 2019, 787: 27-35.

[14] jing xu, yue wang, yunxiang cao, zhengke he, lianming zhao, ubong jerome etim, peng bai*, zifeng yan, pingping wu*. what is the effect of sn and mo oxides on gold catalysts for selective oxidation of benzyl alcohol? newjournal of chemistry2019, 43: 2591-2599.

[13] jing xu, sainan zhou, pengpeng sang, jing li, and lianming zhao.* inorganic graphenylene as a promising novel boron nitrogen membrane for hydrogen purification: a computational study. journal of materials science 2017, 52: 10285–10293. (cover paper)

[12] jing xu, sheng guo, fei hou, jing li, lianming zhao.* methanol oxidation on the ptpd(111) alloy surface: a density functional theory study. international journal of quantum chemistry 2018, doi:10.1002/qua.25491.

[11] yong dang, lianming zhao, xiaoqing lu, jing xu,^∗ pengpeng sang, sheng guo, houyu zhu, wenyue guo.^∗molecular simulation of co₂/ch₄ adsorption in brown coal: effect of oxygen-, nitrogen-, and sulfur-containing functional groups. applied surface science2017, 423: 33–42.

[10] pengpeng sang, lianming zhao,*jing xu, zemin shi, sheng guo, yanchen yu, houyu zhu, zifeng yan, wenyue guo,* excellent membranes for hydrogen purification: dumbbell-shaped porous -graphynes. international journal of hydrogen energy2017, 42: 5168–5176.

[9] jing xu, jing li, haijun liu, lianming zhao.* nitrogen-modified graphdiyne as a promising membrane for helium separation: first-principles and molecular dynamics simulations. icnfcm, 2017, hong kong.

[8] liu, zhenyu xiao, jing xu, wenbin xu, pengpeng sang, lianming zhao,* houyu zhu, daofeng sun,* wenyue guo.* a nbo-type copper metal–organic framework decorated with carboxylate groups exhibiting highly selective co₂ adsorption and separation of organic dyes. journal of materials chemistry a 2016, 4, 13844–13851.

[7]wenbin xu, qiuyue ding, pengpeng sang, jing xu, zemin shi, lianming zhao,* yuhua chi, wenyue guo.^*the effect of modified metal center in ligand for co₂ capture in novel zr-based porphyrinic metal-organic frameworks: a computational investigation. the journal of physical chemistry c2015, 119 (35) : 20389–20400.

[6] qiuyue ding, wenbin xu, pengpeng sang, jing xu, lianming zhao,* xiaoli he, wenyue guo. insight into the reaction mechanisms of methanol on ptru/pt(111): a density functional study. applied surface science 2016, 369: 257–266.

[5] jing xu, wei xing, haifeng wang, wenbin xu, qiuyue ding, lianming zhao,* wenyue guo, zifeng yan.* monte carlo simulation study of the halogenated mil-47(v) frameworks: influence of functionalization on h₂s adsorption and separation properties. journal of materials science2016, 51: 2307–2319.

[4] jing xu, pengpeng sang, wei xing, zemin shi, lianming zhao,* wenyue guo, zifeng yan.^* insights into the h₂/ch₄ separation through two-dimensional graphene channels: influence of edge functionalization. nanoscale research letters2015, 10: 492, doi 10.1186/s11671-015-1199-2.

[3] jing xu, wei xing, lianming zhao,* feifei guo, xiaozhong wu, wenbin xu, zifeng yan.^* the co₂ storage capacity of the intercalated diaminoalkane graphene oxides: a combination of experimental and simulation studies. nanoscale research letters 2015, 10:318, doi 10.1186/s11671-015-1026-9.

[2] jing xu, pengpeng sang, lianming zhao,* wenyue guo, fei qi, wei xing, zifeng yan.^* vacuum ultraviolet photofragmentation of octadecane: photoionization mass spectrometric and theoretical investigation. applied petrochemical research2015, 5, 305–311.

[1] , , ,*, .^* adsorption and seperation of h₂s in hkust-1 metal−organic frameworks: a monte carlo simulation study. iscemp 2015, yang zhou, china.

 ◎专利

  授权国家发明专利5项：

（5）徐静、刘海军、李静、赵联明、邢伟、朱侯禹，2020.08.25，一种矿物酸插层氧化石墨烯co₂吸附材料的制备方法，中国，zl201810234350.2。

（4）邢伟、李创、徐静、高秀丽、赵联明，一种nimow纳米材料及其制备方法、一种氢气电催化氧化催化 剂电极材料及其制备方法，中国，zl201910146631.7。

（3）赵联明、刘海军、徐静、李静、朱侯禹、匙玉华，2020.11.06，一种定量分析金属嵌入碳纳米管催化剂析氢活性的方法，中国，zl201810459006.3。

（2）赵联明、徐静、王海峰、徐文彬、丁秋月、郭文跃，一种定量分析沸石咪唑酯骨架材料路易斯酸性的方法，2019.06.19，中国，zl201410440221.0。

（1）赵联明、徐文彬、桑鹏鹏、丁秋月、何小丽、徐静、郭文跃，一种定量分析金属卟啉mofs材料co₂/ch₄分离效率的方法，2017.12.01，中国，zl201510237145.8。