王燚,男,1985年生,理學博士,教授,碩士生導師,分析化學專業。重慶市第四批高層次人才特支計畫(青年拔尖)入選者,重慶市第三批學術技術帶頭人後備人選,重慶市第七批高校中青年骨幹教師,綠色合成與套用重慶市重點實驗室副主任,重慶師範大學化學學院院長助理。
基本介紹
- 中文名:王燚
- 國籍:中國
- 民族:羌
- 出生地:四川綿陽
- 學位/學歷:博士/研究生
- 專業方向:分析化學
- 職務:院長助理
- 職稱:教授
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教育與工作經歷:
2019–至今,重慶師範大學,化學學院,教授(破格)
2015–2019,重慶師範大學,化學學院,副教授
2014–2015,重慶師範大學,化學學院,講師(教授待遇引進)
2012–2013,喬治亞理工學院(美國),生物醫學工程系,聯合培養博士(導師:夏幼南教授)
2011–2012,聖路易斯華盛頓大學(美國),生物醫學工程系,聯合培養博士(導師:夏幼南教授)
2003–2014,西南大學,化學化工學院,本科/碩士/博士(導師:黃承志教授)
2015–2019,重慶師範大學,化學學院,副教授
2014–2015,重慶師範大學,化學學院,講師(教授待遇引進)
2012–2013,喬治亞理工學院(美國),生物醫學工程系,聯合培養博士(導師:夏幼南教授)
2011–2012,聖路易斯華盛頓大學(美國),生物醫學工程系,聯合培養博士(導師:夏幼南教授)
2003–2014,西南大學,化學化工學院,本科/碩士/博士(導師:黃承志教授)
教學成果簡介:主講《儀器分析》、《納米分析與技術》、《分析化學實驗》、《儀器分析實驗》等本科生課程及《納米材料學》等研究生課程;教學業績突出,連續三年榮獲重慶師範大學“教學優秀獎”,多次被評為重慶師範大學“優秀教師”、“大學生就業指導服務先進個人”等;積極開展教學教改研究,已主持完成重慶市教育教學改革項目1項;指導本科生完成“大學生創新創業訓練計畫項目”4項,指導學生參加各類科技競賽並榮獲中國青少年科技創新大賽“百強作品”、挑戰杯全國大學生科技作品競賽“一等獎”等。
研究方向與成果簡介:研究方向為納米精準合成與生物醫藥分析,主要包括:(1)無機納米材料形貌調控及機理研究;(2)臨床疾病標誌物檢測與體外診斷;(3)新型納米酶的開發與套用。主持國家自然科學基金面上項目1項、青年項目1項,主持重慶市高層次人才特支計畫項目等省部級項目5項。已在業界公認的國際頂級或重要期刊和具有國際影響力的國內科技期刊上發表論文60餘篇,包括J. Am. Chem. Soc., Adv. Mater., Nano Lett., Adv. Funct. Mater., ACS Nano, Biosens. Bioelectron, Chem. Commun.,《科學通報》,《中國科學:化學》等,其中1篇標誌性成果論文入選重慶市首屆“自然科學優秀學術論文”,博士學位論文被評為“重慶市優博論文”。合作出版譯著《見微知著:納米科學》,該著作入選科技部“2015年全國優秀科普作品”(全國僅50部作品入選)和2014年度中國物理學會“值得推薦的物理學新書”。擔任Nano Lett., Biosens. Bioelectron., ACS Appl. Mater. Interfaces, Chem. Eng. J.等20餘種國內外學術期刊特邀評審人。
部分代表性論文:
20. C. Xia, W. He, P. F. Gao, J. R. Wang, Z. M. Cao, Y. F. Li*, Y. Wang*, C. Z. Huang*, Nanofabrication of hollowed-out Au@AgPt core-frames via selective carving of sliver and deposition of platinum, Chem. Commun., 2020, 56, 2945−2948.
19. Y. Min,Y. Wang*,Manipulating bimetallic nanostructures with tunable localized surface plasmon resonance and their applications for sensing,Front. Chem., 2020, 8, 411. (Invited Review)
18. J. Wang, Y. Hu, Q. Zhou, L. Hu, W. Fu*, Y. Wang*, Peroxidase-like activity of metal−organic framework [Cu(PDA)(DMF)] and its application for colorimetric detection of dopamine, ACS Appl. Mater. Interfaces, 2019, 11, 44466−44473.
17. W. Xia, P. Zhang, W. Fu, L. Hu, Y. Wang*, Aggregation/dispersion-mediated peroxidase-like activity of MoS2 quantum dots for colorimetric pyrophosphate detection, Chem. Commun., 2019, 55, 2039−2042.
16. Y. Wang*, P. Zhang, W. Fu, Y. Zhao, Morphological control of nanoprobe for colorimetric antioxidant detection, Biosens. Bioelectron., 2018, 122, 183–188.
15. L. Li, P. Zhang, W. Fu, M. Yang, Y. Wang*, Use of seed-mediated growth of bimetallic nanorods as a knob for antioxidant assay, Sens. Actuators B-Chem., 2018, 276, 158–165.
14. M. Liu*, F. Xue, X. Wang, W. Fu, Y. Wang*, Y. Lu, N. Li*, Conformal deposition of atomic TiO2 layer on chalcogenide nanorod with excellent activity and durability towards solar H2 generation, Chem. Eng. J., 2018, 341, 335–343.
13. L. Liu, Y. Wang*, W. Fu*, Highly selective detection of sulfide through poisoning silver nanoparticle catalysts, Sens. Actuators B-Chem., 2017, 247, 414–420.
12. Y. Wang*, P. Zhang, X. Mao, W. Fu, C. Liu, Seed-mediated growth of bimetallic nanoparticles as an effective strategy for sensitive detection of vitamin C, Sens. Actuators B-Chem., 2016, 231, 95–101.
11. Y. Wang, H.-C. Peng, J. Liu, C. Z. Huang, Y. Xia*, Use of reduction rate as a quantitative knob for controlling the twin structure and shape of palladium nanocrystals, Nano Lett., 2015, 15, 1445–1450.
10. Y. Wang, H. Y. Zou, C. Z. Huang*, Real-time monitoring of oxidative etching on single Ag nanocube via light-scattering dark-field microscopic imaging, Nanoscale, 2015, 7, 15209–15213.
9. Y. Wang, S.-I. Choi, X. Zhao, S. Xie, H.-C. Peng, M. Chi, C. Z. Huang, Y. Xia*, Polyol synthesis of ultrathin Pd nanowires via attachment-based growth and their enhanced activity towards formic acid oxidation, Adv. Funct. Mater., 2014, 24, 131–139.
8. X. Xia,Y. Wang, A. Ruditskiy, Y. Xia*,25th Anniversary Article: Galvanic Replacement: A Simpleand Versatile Route to Hollow Nanostructures with Tunableand Well-Controlled Properties,Adv. Mater., 2013, 25, 6313–6333.(Invited Review)
7. Y. Wang, Y. Zheng, C. Z. Huang, Y. Xia*, Synthesis of Ag nanocubes 18-32 nm inedge length: the effects of polyol on reduction kinetics, size control, and reproducibility, J. Am. Chem. Soc., 2013, 135, 1941–1951.
6. Y. Wang, D. Wan, S. Xie, X. Xia, C. Z.Huang, Y. Xia*, Synthesis of silver octahedra with controlled sizes and optical properties via seed-mediated growth, ACS Nano, 2013, 7, 4586–4594.
5. Y. Wang, S. Xie, J. Liu, J. Park, C. Z. Huang, Y. Xia*, Shape-controlled synthesis of palladium nanocrystals: a mechanistic understanding of the evolution from octahedrons to tetrahedrons, Nano Lett.,2013, 13, 2276–2281.
5. Y. Wang, S. Xie, J. Liu, J. Park, C. Z. Huang, Y. Xia*, Shape-controlled synthesis of palladium nanocrystals: a mechanistic understanding of the evolution from octahedrons to tetrahedrons, Nano Lett.,2013, 13, 2276–2281.
4. T. Lv, Y. Wang (co-first author), S.-I. Choi, M. Chi, J. Tao, L. Pan, C. Z. Huang, Y. Zhu, Y. Xia*, Controlled synthesis of nanosized palladium icosahedra and their catalytic activity towards formic-acid oxidation, ChemSusChem, 2013, 6, 1923–1930.
3. Y. Wang, S. J. Zhen, Y. Zhang, Y. F. Li, C. Z. Huang*, Facile fabrication of metal nanoparticle/graphene oxide hybrids: A new strategy to directly illuminate graphene for optical imaging, J. Phys. Chem. C, 2011, 115, 12815–12821.
2. Y. Wang, Y. F. Li, J. Wang, Y. Sang, C. Z. Huang*, End-to-end assembly of gold nanorods by means of oligonucleotide–mercury(II) molecular recognition, Chem. Commun., 2010, 46, 1332–1334.
1. Y. Wang, Y. F. Li, C. Z. Huang*, A one-potgreen method for one-dimensional assembly of gold nanoparticles with a novel chitosan-ninhydrin bioconjugate at physiological temperature, J. Phys. Chem. C, 2009, 113, 4315–4320.
