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          楊書廷個人簡介
          
			        	
          時間:2012-11-20瀏覽:21026設(shè)置
          
			        	
			        	
          
			            	

          楊書廷
          博士, 教授, 博士生導(dǎo)師
          動力電源及關(guān)鍵材料國家地方聯(lián)合工程實驗室 主任
          河南省動力電源及關(guān)鍵材料工程技術(shù)研究中心 主任
          動力電源及關(guān)鍵材料河南省協(xié)同創(chuàng)新中心  主任
          河南省新型電池產(chǎn)業(yè)技術(shù)創(chuàng)新戰(zhàn)略聯(lián)盟  牽頭
          中國硅酸鹽學(xué)會固態(tài)離子學(xué)會  副理事長
          河南電池研究院  院長



          教育經(jīng)歷
          2004.9-2007.6 大連理工大學(xué)材料加工工程專業(yè)獲工學(xué)博士學(xué)位
          1986.9-1989.6 河南師范大學(xué)物理化學(xué)專業(yè)獲理學(xué)碩士學(xué)位
          1978.9-1982.6 新鄉(xiāng)師范學(xué)院(即現(xiàn)在的河南師范大學(xué))獲學(xué)士學(xué)位
          工作經(jīng)歷
          1982.7至今 河南師范大學(xué)化學(xué)系任教
          1991.9 晉升副教授職稱
          1996.9 晉升教授職稱
          聯(lián)系方式
          電話: 0373-33263366
          Email: shutingyang@foxmail.com  
          實驗室網(wǎng)址:http://dingdong100.net/dldy/
          主講課程:
          《結(jié)構(gòu)化學(xué)》、《固體化學(xué)》、《固體電化學(xué)》、《固體材料結(jié)構(gòu)學(xué)》
          研究領(lǐng)域和興趣:
          1.能源電化學(xué)
          2.鋰離子電池、鋰硫電池、燃料電池的關(guān)鍵材料及電池工藝技術(shù)研究
          3.新型儲能系統(tǒng)及關(guān)鍵材料研究
          近年來主持的主要科研項目
          1、國家重點科技攻關(guān)計劃課題:燃料電池電堆多物理量的動靜態(tài)耦合規(guī)律研究,2019-2022,29萬;
          2、 國家863科技計劃:動力鋰離子電池新型正極材料及電池關(guān)鍵工藝技術(shù)研究2013-2015,230萬;
          3、 2014年河南新鄉(xiāng)市新能源材料及電池材料戰(zhàn)略性新興產(chǎn)業(yè)區(qū)域集聚發(fā)展試點項目:動力電源及關(guān)鍵材料河南省工程實驗室建設(shè)項目,2014-2016,1000萬;
          4、 河南省發(fā)改委科技創(chuàng)新專項:18動力電源國家工程實驗室科技創(chuàng)新建設(shè)專項2018-2019,50萬;
          5、 河南省重大科技專項:新材料體系高性能鋰離子動力電池單體全產(chǎn)業(yè)鏈關(guān)鍵技術(shù),2012-2014,1000萬;
          6、 河南省重大科技專項:動力鋰離子電池及隔膜材料研發(fā)與產(chǎn)業(yè)化,2009-2014
          7、 河南省科技攻關(guān)計劃(國際科技合作):高性能鋰硫電池關(guān)鍵材料合成與應(yīng)用工藝研究,2016-2017,10萬。
          8、河南省創(chuàng)新型科技團(tuán)隊:動力電源及關(guān)鍵材料2012-2014
          代表性學(xué)術(shù)論文:
          1.Integrating Polar and Conductive Fe2O3-Fe3C Interface with Rapid Polysulfide Diffusion and Conversion for High-Performance Lithium-Sulfur Batteries[J]. ACS APPLIED MATERIALS & INTERFACES, 2019, 11(43): 39772-39781.
          2. Pt/NiO Microsphere Composite as Efficient Multifunctional Catalysts for Nonaqueous Lithium-Oxygen Batteries and Alkaline Fuel Cells: The Synergistic Effect of Pt and Ni[J]. ACS APPLIED MATERIALS & INTERFACES, 2019, 11(43): 39789-39797.
          3. Tuning Primary Particle Growth of Li1.2Ni0.2Mn0.6O2 by Nd-Modification for Improving the Electrochemical Performance of Lithium Ion Batteries[J]. ACS SUSTAINABLE CHEMISTRY & ENGINEERING, 2019, 7(6): 5946-5952.
          4. Organic Alkali Metal Salt Derived Three-Dimensional N-Doped Porous Carbon/Carbon Nanotubes Composites with Superior Li-S Battery Performance[J]. ACS SUSTAINABLE CHEMISTRY & ENGINEERING, 2019, 7(4): 3995-4003
          5. Boron additive passivated carbonate electrolytes for stable cycling of 5 V lithium-metal batteries[J]. JOURNAL OF MATERIALS CHEMISTRY A, 2019, 7(2): 594-602.
          6. A soluble single atom catalyst promotes lithium polysulfide conversion in lithium sulfur batteries[J]. CHEMICAL COMMUNICATIONS, 2019, 55(80), 12056-12059.
          7. A faster lithium ion diffusion pathway constructed by uniform distribution of sulfur using simple one step spray drying method[J]. CHEMICAL ENGINEERING JOURNAL, 10.1016/j.cej.2019.122353.
          8. In situ constructed organic/inorganic hybrid interphase layers for high voltage Li-ion cells[J]. Journal of power sources, 2018, 407: 132-136. 
          9. Biological Phytic Acid Guided Formation of Monodisperse Large-Sized Carbon@LiFePO4/Graphene Composite Microspheres for High-Performance Lithium-ion Battery Cathodes[J]. Chemical Engineering Journal, 2018, 351: 382-390.
          10. A novel modified PP separator by grafting PAN for high-performance lithium-sulfur batteries[J]. Journal of materials science, 2019, 54(1): 1566-1579. 
          11. Onion-derived N, S self-doped carbon materials as highly efficient metal-free electrocatalysts for the oxygen reduction reaction[J]. Applied Surface Science, 2018, 427:626-634.
          12. Direct synthesis of nitrogen and phosphorus co-doped hierarchical porous carbon networks with biological materials as efficient electrocatalysts for oxygen reduction reaction[J]. International Journal of Hydrogen Energy, 2018, 43: 10341  10350. 
          13. A novel composite solid polymer electrolyte based on copolymer P(LA-co-TMC) for all-solid-state lithium ionic batteries[J]. Solid State Ionics, 2018, 3218: 8-14. 
          14. Artificial Interface Derived from Diphenyl Ether Additive for High-Voltage LiNi0.5Mn1.5O4 Cathode[J]. ChemElectroChem, 2018, 5: 15091515. 
          15. High rate capability and long cycle stability of Fe2O3/MgFe2O4 anode material synthesized by gel-cast processing[J]. Chemical Engineering Journal, 2017, 307: 999-1007.
          16. Synthesis of Vesicle-Like MgFe2O4/Graphene 3D Network Anode[J]. ACS Sustainable Chem. Eng, 2017, 5(1): 563-570.
          17. Rapid calcination synthesis of Zn2SnO4@C/Sn composites for highperformance lithium ion battery anodes[J]. Journal of Alloys and Compounds, 2017, 723: 1018-1025.
          18. Facile synthesis of well dispersed spinel cobalt manganese oxides microsphere as efficient bi-functional electrocatalysts for oxygen reduction reaction and oxygen evolution reaction[J]. Journal of Alloys and Compounds, 2017, 721:482-491.
          19. Lithium metal protection through in-situ formed solid electrolyteinterphase in lithium-sulfur batteries: The role of polysulfides on lithium anode[J]. Journal of Power Sources, 2016, 327: 212-220.
          20. First-principles and experimental study of nitrogen/sulfur co-doped carbon nanosheets as anode for rechargeable sodium ion batteries[J]. Journal of Materials Chemistry A, 2016, 4, 15565-15574. 
          21. In Situ Synthesis of Flexible Elastic N-Doped Carbon Foam as Carbon Current Collector and Interlayer for High-Performance Lithium Sulfur Batteries[J]. Journal of Materials Chemistry A, 2016, 4:8636-8644.
          得榮譽與獎勵:
          1、高比能量動力鋰離子電池先進(jìn)關(guān)鍵材料及應(yīng)用,河南省科技進(jìn)步二等獎,2019
          2、鋰離子電池用隔膜材料的制備及應(yīng)用,河南省科技進(jìn)步二等獎,2006
          3、鋰離子電池錳酸鋰正極材料及其生產(chǎn)工藝,河南省科技進(jìn)步二等獎2003
          4、圓柱密封鎳氫(MH/Ni)蓄電池與直封工藝,河南省科技進(jìn)步二等獎,2000
          5球形(高比重)氫氧化亞鎳及其生產(chǎn)工藝,河南省科技進(jìn)步二等獎,1993
          5、鋰離子電池用隔膜材料的制備工藝及應(yīng)用,新鄉(xiāng)市科技進(jìn)步一等獎,2005
          6、鋰離子系列電池及相關(guān)材料的制備及其生產(chǎn)工藝,新鄉(xiāng)市科技進(jìn)步獎一等獎,2004 
          7、鋰離子電池新型正極材料LiFePO4/C制備研究,新鄉(xiāng)市科技進(jìn)步獎二等獎,2007
          8、新型可充式3V鋰離子電池的制備及應(yīng)用,新鄉(xiāng)市科技進(jìn)步二等獎,2007
          9、高容量鎳氫電池新型正極材料球行α-Ni(OH)2的研究,河南省杰出人才創(chuàng)新基金榮譽獎,2001
          10、河南省優(yōu)秀專家,1999
          11、河南省“十一五”優(yōu)秀科技創(chuàng)新人才,2011
          12、河南省技術(shù)創(chuàng)新先進(jìn)個人,2012
          13、新鄉(xiāng)市科學(xué)技術(shù)重大貢獻(xiàn)獎,2011
          14、河南省教育系統(tǒng)凝聚力建設(shè)先進(jìn)個人,2017
          授權(quán)發(fā)明專利:
          1. 楊書廷,田拴寶,董紅玉,等. 一種鋰硫電池正極材料、制備方法和鋰硫電池,2018.
          2. 楊書廷,谷繼峰,曹相杰,等. 聚丙烯微孔膜用孔率調(diào)節(jié)劑、微孔膜及其制備方法,2018.
          3. 楊書廷,谷繼峰,曹相杰,等. 鋰離子電池聚丙烯多孔隔膜及其制備方法,2018
          4. 楊書廷,劉玉霞,李向南,等. 一種錫基合金柔性薄膜電極及其制備方法,2017.
          5. 楊書廷,劉玉霞,張會雙,等. 一種鋰離子電池用錫基合金負(fù)極板及其制備方法,2017.
          6. 楊書廷,尹艷紅,朱學(xué)海,等. 一種鋰離子電池復(fù)合隔膜及其制備方法,2016
          7. 楊書廷,尹艷紅,朱學(xué)海,等. 鋰離子電池復(fù)合隔膜及制備方法,2016
          8. 楊書廷,岳紅云,呂秀夯,等. 一種鋰離子電池用電解液,2015
          9. 楊書廷,尹艷紅,岳紅云,曹朝霞,張會雙. 一種鋰離子電池正極材料及其制備方法,2013.
          10. 楊書廷王濤,李紅安,等. 一種鋰鐵磷化合物的制備方法,2012

          
			        	
          
			        	
          
			        	
          

						
          
			        
			    
          
		    
          
    	
          
    
          



    




          
	
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