2022年浙江省科学技术奖提名材料.docx

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1、2023年浙江省科学技术奖提名公示内容一项目名称面向双碳战略材料的晶体结构设计及性能研究二、候选单位1、台州学院；2、清华大学；3、哈尔滨工业大学三、候选人1、钟文武；2、谷林；3、宋波；4、王宗鹏；5、申士杰；6、林志萍四、代表作发表情况序号论文（著作）名称刊名/出版社发表时间（年月日）通讯作者（含共同）第一作者（含共同）论文全部作者年卷期页码1Thepu1sed1aser-inducedSchottkyjunctionviain-situformingCdc1ustersonCdSsurfacestowardefficientvisib1e1ight-drivenPhotocata1yti

2、chydrogenevo1utionApp1iedCata1ysisB:Environmenta12019-12WenwuZhong;WenguangTu;JiaguoYuWenwuZhongWenwuZhong,ShijieShen,MinHe,DaWang,ZongpengWang,Zhiping1in,WenguangTu,JiaguoYu2019,258,1179672Impiovedoxygenevo1utionactivityofIr02byinsituengineeringofanu1tra-sma11Irsphereshe11uti1izingapu1sed1aserNanos

3、ca1e2019-3Zhiping1in;ZongpengWang;BaizengFangWcnwuZhongWenwuZhong,Zhiping1in,ShangshenFeng,DaWang,ShijieShenfQinghuaZhang,1inGu,ZongpcngWang,BaizengFang2019,11,44073NewPre1ithiatedV205Superstructurefor1ithium-IonBatterieswith1ongCyc1e1ifeACSEnergy1etters2023-1WenWuZhong;Shuquan1iang;Jun1iu;Jun1iuWen

4、WuZhongWenWuZhong,JingdongHuang,Shuquan1iang,Jun1iu,Yejing1i,GemeiCai,2023,5,31andHighPowerYongJiang,Jun1iu4Coup1edVacancyPairsinNi-DopedCoSeforImprovedE1ectrocata1yticHydrogenProductionThroughTopochemica1Deinterca1ationAngewandteChemieIntcrnationa1Edition2023-12WenwUZhongWcnwuZhongWenwuZhong,Zongpe

5、ngWang,NanGao,1iangaiHuang,Zhiping1in,Yanping1iu,FanqiMcng,JunDeng,ShifcngJin,QinghuaZhang,1inGu2023,59,227435U1tra1ow-temperatureassistedsynthesisofsing1ep1atinumatomsanchoredoncarbonnanotubesforefficient1ye1ectrocata1yticacidichydrogenevo1utionJourna1ofEnergyChemistry2023-12WenwuZhong;BeibeiXiaoWe

6、nwuZhongWenwuZhong,WenguangTu,ZongpengWang,Zhiping1in,AijiaoXu,XiufangYe,DongchuChen,BeibeiXiao2023,51,2806Skutterudite-TypeTernaryCo1-xNixP3Nanoneed1eArrayE1ectrocata1ystsforEnhancedHydrogenandOxygenEvo1utionHydrogenEvo1utionReactionACSEnergy1etters2018-7TaiYao;XianjieWang,BoSongQiangFuQiangEu,TaoW

7、u,GangFu,Tang1ingGao,JiecaiHan,TaiYao,YuminZhang,WenwuZhong,XianjieWang,andBoSong2018,3,17447Dua1-EnhancedDopinginReSe2forEfficient1yPhotoenhancedHydrogenEvo1utionReactionAdvancedScience2023-5XinghongZhang;BoSongRanWangRanWang,JiecaiHan,PingXu,Tang1ingGao,JunZhong,XianjieWang,XinghongZhang,Zhijun1i,

8、1ing1ingXu,BoSong2023,7,20002168SynergisticDopingandInterca1ation:Rea1izingDeepPhaseModu1ationonMoS2ArraysforHigh-EfficiencyHydrogenEvo1utionReactionAngewandteChemieInternationa1Edition2019-11ZhengJiang;1inGu;XinhuiXiaShengjueDengShengjueDeng,Mi1uo,ChangzhiAi,YanZhang,Bo1iu,1eiHuang,ZhengJiang,Qingh

9、uaZhang,1inGu,Shiwei1in,Xiu1iWang,1eiYu,JianguoWen,JiaaoWang,GuoxiangPan,XinhuiXia,JiangpingTu2019,11,16289五、提名意见以不同类型晶格结构基元为基础，通过调控其晶格构序、基元配位原子种类、配位构型，显著提升清洁能源材料性能，是实现“碳达峰”、“碳中和”目标重要的研究范式。本项目揭示了能源材料的构效关系，为高效、廉价非贵金属能源材料的设计合成提供了新思路和新方法o8篇代表性论文发表在AngewandteChemie-InternationaIEdition（2篇XACSEnergy1ettersAdvancedScienceApp1iedCata1ysisB、Nanosca1e（2篇）xJourna1ofEnergyChemistry等材料领域知名期刊上。研究成果被来自13个国家和地区的79个研究机构的学者引用，弓I用干I1物包括NatUreCOmmUniCatiOns、AdvancedMateria1s8篇代表论文被SC1正面他引710次，单篇最高引用140次，其中6篇论文入选ESI高被引论文。注：提名该项目为浙江省自然科学二等奖