郇宇,現任濟南大學材料科學與工程學院講師。
基本介紹
研究方向:壓電材料與器件、鐵電儲能陶瓷與器件、壓電能量收集器件、電介質陶瓷電容器(MLCC)
學習經歷:1. 2011/8–2016/6,清華大學,材料科學與工程,博士,導師:王曉慧教授
2. 2014/10–2015/3,Technische Universität Darmstadt,材料科學與工程,交流,導師:JürgenRödel教授
3. 2007/9–2011/7,南京理工大學,材料科學與工程,學士
工作經歷:1. 2016/7–至今,濟南大學,材料科學與工程學院
學術兼職情況:目前擔任電子元器件關鍵材料與技術專委會、中國矽酸鹽學會青年工作委員會委員、中國矽酸鹽學會特陶分會高級會員、山東省電子陶瓷專家委員會委員;J Adv Dielectric 青年編委、無機材料學院青年編委。
主持科研項目:1.國家自然科學基金面上項目,52072150,KNN基陶瓷/Cu內電極多層壓電驅動器的理論設計與性能調控,2021/1-2025/12,在研,主持
2. 中國科協青年人才托舉計畫,2019/1-2022/12,在研,主持
3.國家自然科學基金青年基金項目,51702119,還原氣氛燒結對KNN基無鉛陶瓷缺陷結構與電學性能影響的研究,2018/1-2021/12,結題,主持
4.山東省自然科學基金重大基礎研究項目,ZR2022ZD39,高性能介電儲能材料的關鍵科學與技術問題研究”,2023.1-2025.12,在研,子課題負責人
5.中國博士後科學基金面上項目,2017M612177,負載貴金屬鈮酸鉀鈉基納米線的能量收集特性研究,2017/06-2018/12,結題,主持
6. 廣東省電子功能材料與器件重點實驗室2021年開放基金重點項目,EFMD202100Z,KNN基/Cu內電極多層陶瓷的設計、製備和共燒行為研究,2022/1-2023/12,在研,主持
7. MLCC儲能密度和功率密度的表征,橫向課題,在研,主持
發表論文:
1. Huan Y*, Chen S, Zeng R, Wei T, Dong D,Hu X, Huang Y. Intrinsic effects of ruddlesden-popper-based bifunctionalcatalysts for high-temperature oxygen reduction and evolution. Adv Energy Mater2019;0:1901573. (頂級期刊,影響因子:24.884)
2. Huan Y*,Zhang XS, Song JN, Zhao Y, WeiT, Zhang GG, Wang XH. High-performance piezoelectric composite nanogeneratorbased on Ag/(K,Na)NbO3 heterostructure. Nano Energy 2018;50:62-69. (頂級期刊,影響因子:15.548)
3. Huan Y*,Wei T, Wang XZ, et al. Achievingultrahigh energy storage efficiency in local-composition gradient-structuredferroelectric ceramics. Chem. Eng. J. 2021, 425: 129506. (頂級期刊,影響因子:13.3)
4. Hao L, Yang Y, Huan Y*, et al. Achievinga high dielectric tunability in strain-engineered tetragonal K0.5Na0.5NbO3films. npj Computational Materials 2021, 7: 62. (頂級期刊)
5. Yin B, Liu Z, Wang Y, Huan Y*, et al.Revealing the Intrinsic Origin for Performance-Enhancing V2O5 ElectrodeMaterials. ACS Appl. Mater. Inter. 2020, 12: 45961-45967. (頂級期刊,影響因子:8.456)
6. Wang X, Huan Y*, Zhao P, et al.Optimizing the grain size and grain boundary morphology of (K,Na)NbO3-basedceramics: Paving the way for ultrahigh energy storage capacitors. J.Materiomics 2021, 7: 780-789. (中國卓越期刊)
7. Su Y, Wei T, Li Y, Huan Y*, et al. Ahighly active CH4 catalyst correlated with solid oxide fuel cell anodeperformance. J. Mater. Chem. A 2021, 9: 5067-5074. (頂級期刊,影響因子:10.733)
8. Gao C, Wei T, Zhang Y, Song X, Huan Y,Liu H, Zhao M, Yu J, Chen X. A photoresponsive rutile TiO2 heterojunction withenhanced electron-hole separation for high-performance hydrogen evolution. AdvMater 2019;31:e1806596-e96. (頂級期刊,影響因子:25.809)
9. Huan Y, Fan Y, Li Y, Yin B, Wei T.Systematic effect of contaminations on IT-SOFCs cathode stability: aquantifiable correlation versus cathode-side poisoning and protection. J MaterChem A 2018;6:5172-84. (頂級期刊,影響因子:10.733)
10. Wang Z, Yuan X, Yang J, Huan Y, Gao X,Li Z, Wang H, Dong S. 3D-printed flexible, Ag-coated PNN-PZT ceramic-polymergrid-composite for electromechanical energy conversion. Nano Energy2020;73:104737. (頂級期刊,影響因子:15.548)
11. Huan Y*, Li Y, Yin B, Ding D, Wei T.High conductive and long-term phase stable anode materials for SOFCs: A2FeMoO6(A = Ca, Sr, Ba). J Power Sources 2017;359:384-90. (頂級期刊)
12. Guo F, Zhao M, Xu K, Huan Y, et al.Evidence for the dynamic relaxation behavior of oxygen vacancies in AurivilliusBi2MoO6 from dielectric spectroscopy during resistance switching. J Mater ChemC 2019;7:8915. (頂級期刊)
13. Cen Z, Huan Y, Feng W, Yu Y, Zhao P,Chen L, Zhu C, Li L, Wang X. A high temperature stable piezoelectric strain ofKNN-based ceramics. J Mater Chem A 2018;6:19967-73. (頂級期刊,影響因子:10.733)
14. Huan Y, Fan Y, Li Y, Yin B, Hu X, DongD, Wei T. Factors influencing Li+ migration in garnet-type ceramicelectrolytes. Journal of Materiomics 2019;5:214-20. (中國卓越期刊)
16. Huan Y*, Wei T, Wang Z, Shen H, Lin X,Huang S, Wang X. Ultrahigh energy harvesting properties in Ag decoratedpotassium-sodium niobite particle-polymer composite. Journal of Materiomics2020;6:355-63. (中國卓越期刊)
17. Fan Y, Wang Z, Huan Y*, Wei T, Wang X.Enhanced thermal and cycling reliabilities in(K,Na)(Nb,Sb)O3-CaZrO3-(Bi,Na)HfO3 ceramics. Journal of Advanced Ceramics2020;9:349-59. (頂級期刊)
18. Wang Z, Huan Y, Feng Y, Huan Y*, et al.Design of p-type NKN-based piezoelectric ceramics sintered in low oxygenpartial pressure by defect engineering. J. Am. Ceram. Soc. 2020, 103:3667-3675.
19. Yin B, Li Y, Sun N, Huan Y*,et al.Activating ORR and OER in Ruddlesden-Popper based catalysts by enhancinginterstitial oxygen and lattice oxygen redox reactions. Electrochim. Acta 2021,20: 137747.
20. Huan Y*, Wang X, Wei T, Xie J, Ye Z,Zhao P, Li L. Defect engineering of high-performance potassium sodium niobatepiezoelectric ceramics sintered in reducing atmosphere. J Am Ceram Soc2017;100:2024-33.
21. Wang X, Huan Y*, Wang Z, Lin X, HuangS, Wei T, Li L, Wang X. Electrical conduction and dielectric relaxationmechanisms in the KNN-based ceramics. J Appl Phys 2019;126:104101.
22. Wang Z, Huan Y*, Feng Y, Qiu Y, Wei T,Zuo R. Design of p-type NKN-based piezoelectric ceramics sintered in low oxygenpartial pressure by defect engineering. J Am Ceram Soc 2020;103:3667-75.
23. Huan Y*, Wang X, Wei T, Zhao P, Xie J,Ye Z, Li L. Defect control for enhanced piezoelectric properties in SnO2 andZrO2 co-modified KNN ceramics fired under reducing atmosphere. J Eur Ceram Soc2017;37:2057-65.
24. Huan Y*, Wei T, Wang Z, Lei C, Chen F,Wang X. Polarization switching and rotation in KNN-based lead-freepiezoelectric ceramics near the polymorphic phase boundary. J Eur Ceram Soc2019;39:1002-10.
25. Zhang X(本科生), Huan Y*, Li K,Tian H, Shen H, Li M, Li H, Wei T. Enhanced photocatalytic activity and cyclestability driven by ultrasonic vibration for ferroelectric photocatalysts. IETNanodielectr 2019;2:48-53.
26. Zhang X(本科生), Huan Y*, ZhuY, Tian H, Li K, Hao Y, Wei T. Enhanced photocatalytic activity by the combinedinfluence of ferroelectric domain and Au nanoparticles for BaTiO3 fibers. Nano2018;13:1850149.
27. 賀薪瑜(本科生), 管澤浩, 王曉智, 王振行, 郇宇*.K0.5Na0.5NbO3-xBiMg0.5Ti0.5O3電介質陶瓷的結構與儲能性能. 矽酸鹽學報 2019;288-92.
28. Huan Y, Wang X, Li L, Koruza J. Strongdomain configuration dependence of the nonlinear dielectric response in(K,Na)NbO3-based ceramics. Appl Phys Lett 2015;107:202903.
29. Huan Y, Wang XH, Li LT. Displacement ofTa-O bonds near polymorphic phase transition in Li-, Ta-, and Sb-modified (K,Na) NbO3 ceramics. Appl Phys Lett 2014;104:242905.
30. Huan Y, Wang XH, Fang J, Li LT. Grainsize effect on piezoelectric and ferroelectric properties of BaTiO3 ceramics. JEur Ceram Soc 2014;34:1445-48.
專利:
1、郇宇,宋嘉南,張曉珊,魏濤,一種基於異質結結構的壓電能量收集器的製備方法,2018,中國,201811243558.7. (實審)
2、郇宇,魏濤,王振行,一種可在還原氣氛下燒結的鈮酸鉀鈉基壓電陶瓷及其製備方法,2018,中國,20181133983.0. (實審)
3、郇宇,魏濤,王振行; 一種通過霍爾效應分析陶瓷內部缺陷的方法,2020-10-23, 中國,202010772336.5
4、郇宇,魏濤,王振行; 一種選擇合適鈮酸鉀鈉基壓電陶瓷燒結氣氛的方法及陶瓷製備工藝,2020-2-7, 中國,201911116769.9.
5、郇宇,魏濤,王曉智; 一種高性能鈮酸鉀鈉基無鉛儲能陶瓷的製備方法,2020-11-17, 中國,202011283229.2.6、郇宇,魏濤,王曉智;一種通過水基包覆法提高鈮酸鉀鈉基無鉛陶瓷儲能性質的方法,2020-11-28,中國,202011358350.7.
授課:本科生課程:《電子材料性能與測試》 《現代材料測試技術》 《無機非金屬材料工藝學》
獲獎:
1、第5屆中國科協青年人才托舉工程(全國每年約300人入選)
2、2018、2019、2020年本科教學貢獻獎。
3、濟南大學“優秀班主任”。
4、無機非金屬材料專業青年教師講課比賽二等獎。
5、濟南大學優秀本科畢業論文指導教師(李勝優、張曉珊、賀薪瑜)。
6、2018年大學生節能減排社會實踐與科技競賽獲校二等獎(宋嘉南等)。
7、2019年第16屆濟南大學“挑戰杯”大學生課外科技作品競賽獲三等獎(張曉珊等)。
8、2019年,所指導精英班學生張曉珊獲本科生國家獎學金。
9、2020年,所指導研究生王振行獲得研究生國家獎學金。10、所指導研究生獲“宋健獎學金”、學業獎學金等,並保送至哈工大、大連理工等學校繼續博士深造。
