姓名: 楊為民 中國工程院院士、博士生導(dǎo)師
地址:上海市浦東北路1658號
Email:yangwm.sshy@sinopec.com
【個人簡介】
1984.9-1988.7 南京大學(xué)化學(xué)系物理化學(xué)專業(yè),本科學(xué)習(xí)
1988.9-1994.7 南京大學(xué)化學(xué)系物理化學(xué)專業(yè),碩博連讀
1994.7-1998.10 上海石油化工研究院課題組長、研究室副主任,工程師、高級工程師
1998.11-1999.11 法國國家科研中心催化研究所訪問學(xué)者,高級工程師
1999.11-2002.12 上海石油化工研究院研究室主任、副總工程師,高級工程師、教授級高工
2003.1-2015.2 上海石油化工研究院副院長、總工程師,教授級高工
2015.3-至今 上海石油化工研究院院長,教授級高工(2021年當(dāng)選中國工程院院士)
2015.10-至今 綠色化工與工業(yè)催化國家重點(diǎn)實驗室主任,教授級高工
【所獲榮譽(yù)】
2018年,稀乙烯增值轉(zhuǎn)化高效催化劑及成套技術(shù),國家科技進(jìn)步二等獎,第一完成人
2014 年,有機(jī)硅雜化層狀分子篩新催化材料及節(jié)能異丙苯成套技術(shù),國家技術(shù)發(fā)明獎二等獎,第三完成人
2011年,適應(yīng)原料多樣性的乙苯清潔生產(chǎn)催化技術(shù)及工業(yè)應(yīng)用,國家技術(shù)發(fā)明二等獎,第一完成人
2012年,苯和乙烯制乙苯的烷基化方法,第十四屆中國專利金獎,第一發(fā)明人
2020年,超薄層狀分子篩材料創(chuàng)制及低苯烯比乙苯催化劑工業(yè)應(yīng)用,中國化工學(xué)會科學(xué)技術(shù)獎“技術(shù)發(fā)明獎”一等獎,第一完成人
2016 年,芳烴氨氧化制芳腈系列催化劑及工藝技術(shù)開發(fā),中國石油和化學(xué)工業(yè)聯(lián)合會科技進(jìn)步獎,一等獎,第一發(fā)明人
2013年,新型高效稀乙烯制乙苯催化劑的研制及工業(yè)應(yīng)用,上海市科技進(jìn)步一等獎,第一完成人
2022年,趙永鎬科技創(chuàng)新獎
2020年,全國創(chuàng)新爭先獎
2015年,何梁何利基金科學(xué)與技術(shù)創(chuàng)新獎
2018年,侯德榜化工科學(xué)技術(shù)成就獎
【社會兼職】
中國化工學(xué)會常務(wù)理事
中國化工學(xué)會煤化工專業(yè)委員會常務(wù)副主任委員
中國化學(xué)會催化專業(yè)委員會委員
中國化學(xué)會分子篩專業(yè)委員會委員
上海市化學(xué)化工學(xué)會催化學(xué)專業(yè)委員會主任委員
《化學(xué)反應(yīng)工程與工藝》期刊執(zhí)行主編
《催化學(xué)報》編輯委員會委員
《化工進(jìn)展》編輯委員會委員
【研究方向】
催化劑工程及催化反應(yīng)工程
有機(jī)化工、石油化工、煤化工
【承擔(dān)項目】
國家重點(diǎn)研發(fā)計劃重點(diǎn)項目-綠色高效化工催化新材料的高通量開發(fā)和應(yīng)用
自然科學(xué)基金聯(lián)合基金項目-酚酮高值聯(lián)產(chǎn)綠色成套工藝的基礎(chǔ)科學(xué)及工程問題
中國石化重大項目-低碳烯烴制備新型催化劑及新工藝
【主要成果】
長期從事有機(jī)化工領(lǐng)域的應(yīng)用基礎(chǔ)研究與工程技術(shù)開發(fā),主持國家重點(diǎn)研發(fā)計劃項目、國家自然科學(xué)基金集成項目、中國石化重大項目等。秉持“關(guān)鍵催化劑創(chuàng)制+催化反應(yīng)工程開發(fā)”的技術(shù)創(chuàng)新理念,在原料多元化乙苯綠色生產(chǎn)、稀乙烯增值轉(zhuǎn)化利用、新結(jié)構(gòu)分子篩創(chuàng)制等方面取得了重要成果。在國際上率先開發(fā)出以生物乙醇為原料的乙苯技術(shù)并實現(xiàn)工業(yè)化,推動了石油化工與生物化工的結(jié)合;開發(fā)出國際領(lǐng)先的稀乙烯增值轉(zhuǎn)化制乙苯高效催化劑及成套工藝技術(shù),實現(xiàn)了我國獨(dú)立煉廠稀乙烯副產(chǎn)的高效利用;基于材料基因工程理念,應(yīng)用分子篩高通量制備技術(shù),合成了SCM系列分子篩材料,其中SCM-14被國際分子篩協(xié)會授予結(jié)構(gòu)代碼SOR,是中國企業(yè)獲得的第一個結(jié)構(gòu)代碼。基于SCM-14,開發(fā)了高選擇性丁烯異構(gòu)化催化劑并實現(xiàn)了我國原創(chuàng)分子篩的首次工業(yè)應(yīng)用。上述創(chuàng)新成果,在海內(nèi)外50多家企業(yè)應(yīng)用,創(chuàng)造了顯著的經(jīng)濟(jì)和社會效益。
【代表性專利】
1. 楊為民、王振東、孫洪敏、張斌、宦明耀、沈震浩、薛明偉,一種分子篩、其制造方法及其應(yīng)用,US10099935
2. 楊為民、王振東、孫洪敏、張斌、羅翼,分子篩SCM-10、其合成方法及其用途,KR10-1898148
3. 楊為民、王振東、羅翼、孫洪敏、張斌,分子篩SCM-14、其合成方法及其用途,ZL201711060307.0
4. 楊為民、王振東、孫洪敏、羅翼、陶偉川,含稀土金屬的ZSM-11分子篩的合成方法及其合成的分子篩,ZL201510753645.7
5. 孫洪敏、楊為民、張斌、沈震浩、宦明耀,干氣與苯烷基化制乙苯的方法,ZL201110193348.3
6. 楊為民、孫洪敏、唐玉民、陸敏俠、朱慧芬、薛立新,苯和乙烯制乙苯的烷基化方法,ZL97106448.2
7. 楊為民、孫洪敏、唐玉民、陸敏俠、朱慧芬、薛立新,苯和乙烯制乙苯的烷基化催化劑,ZL97106449.0
【近年來發(fā)表的代表性論文】
1. High-throughput phase elucidation of polycrystalline materials using serial rotation electron diffraction. Yi Luo, Bin Wang, Stef Smeets, Junliang Sun, Weimin Yang*,Xiaodong Zou*. Nature Chemistry, 2023, Doi:10.1038/s41557-022-01131-8.
2. Visualizing the Entire Range of Noncovalent Interactions in Nanocrystalline Hybrid Materials Using 3D Electron Diffraction. Yi Luo*, Max T. B. Clabbers, Jian Qiao, Zhiqing Yuan, Weimin Yang*,Xiaodong Zou*. Journal of the American Chemical Society, 2022, 144(24): 10817–10824.
3. SCM-39, the direct synthesized ATS aluminosilicate zeolite as a promising solid acid catalyst. Jun Liang, Xiangcheng Li, Chuang Liu, Zhangping Shi, Yu Wang, Wenhua Fu, Zhiqing Yuan, Zhendong Wang*, Weimin Yang*. Microporous and mesoporous materials, 2022, 330: 111608.
4. Unusual pathway of epoxide hydration over a novel CoIII(salen)-based pseudohomogeneous catalyst with excellent performance. Guiju Tao, Huiqing Yang, Wenjun He, Shaoqing Jin, Junwei Ge, Wei Liu, Donghao Deng, Zhaoxu Chen*, Weimin Yang*. Journal of Catalysis,2022, 414: 365-373.
5. Distilling seed-assisted zeolite synthesis conditions by machine learning. Duozheng Ma, Xin Li*, Jun Liang, Zhendong Wang, Weimin Yang*.Microporous and Mesoporous Materials, 2022, 339: 112029.
6. SCM-25: A Zeolite with Ordered Meso-cavities Interconnected by 12 × 12 × 10-Ring Channels Determined by 3D Electron Diffraction. Yi Luo, Wenhua Fu, Bin Wang, Zhiqing Yuan, Junliang Sun*, Xiaodong Zou*, Weimin Yang*.Inorganic Chemistry, 2022, 61(10): 4371-4377.
7. Insight into the formation of framework titanium species during acid treatment of MWW-type titanosilicate and the effect of framework titanium state on olefin epoxidation. Jie Zhang, Shaoqing Jin*, Donghao Deng, Wei Liu, Guiju Tao, Qiangqiang Luo, Hongmin Sun, Weimin Yang*. Microporous and Mesoporous Materials, 2021, 314: 110862.
8. Stabilizing Oxidative Dehydrogenation Active Sites at High Temperature with Steam: ZnFe2O4-Catalyzed Oxidative Dehydrogenation of 1-Butene to 1,3-Butadiene. Tieqiang Zeng, Geng Sun, Changxi Miao, George Yan, Yingchun Ye, Weimin Yang*, Philippe Sautet*. ACS Catalysis, 2020, 10: 12888-12897.
9. Controllable direct-syntheses of delaminated MWW-type zeolites. Zhendong Wang, Magdalena O. Cichocka, Yi Luo, Bin Zhang, Hongmin Sun, Yi Tang*, Weimin Yang*.Chinese Journal of Catalysis,2020, 41: 1062-1066.
10.Three-Dimensional Kinetic Trends in Zeolites Catalyzed Benzene Ethylation Reaction: A Descriptor-Based DFT Study Coupled with Microkinetic Modeling. Dong Wang*, Chuan-Ming Wang, Wei-Min Yang*. ACS Catalysis,2020, 10: 1652-1662.
11.Catalytic production of γ-valerolactone from xylose over delaminated Zr-Al-SCM-1 zeolite via a cascade process. Xiangcheng Li, Xiaohong Yuan, Guopeng Xia, Jun Liang, Chuang Liu, Zhendong Wang*, Weimin Yang*.Journal of Catalysis,2020, 392: 175-185.
12.Hierarchically Structured Zeolites: From Design to Application Li-Hua Chen, Ming-Hui Sun, Zhao Wang, Weimin Yang*, Zaiku Xie*, Bao-Lian Su*. Chemical Reviews, 2020, 120(20): 11194-11294.
13.Development of Zeolite Catalysts for Production of Ethylbenzene. Weimin Yang, Zhendong Wang. Hydrocarbon Processing, 2019 March, 47-49.
14.Synthesis and Structure Determination of SCM-15: a 3D Large Pore Zeolite with Interconnected Straight 12x12x10-ring Channels. Yi Luo, Stef Smeets, Zhendong Wang*, Junliang Sun*, Weimin Yang*. Chemistry - A European Journal, 2019, 25(9): 2184-2188.
15.A simple matrine derivative for the facile syntheses of mesoporous zeolites ITQ-37 and ITQ-43. Chuanqi Zhang,Xu Li, Xinzhu Li, Jibo Hu, Liangkui Zhu, Yan Li, Jiuxing Jiang*, Zhendong Wang*, Weimin Yang*. Chemical Communications, 2019, 55: 2753-2756.
16.First-principles kinetic study on benzene alkylation with ethanol vs. ethylene in H-ZSM-5. Dong Wang*, Chuan-Ming Wang, Guang Yang, Yu-Jue Du, Wei-Min Yang*. Journal of Catalysis, 2019, 374: 1-11.
17.Cooperative structure-directing effect of choline cation and *BEA zeolite in the synthesis of aluminogermanosilicate IWR zeolite. Wenhua Fu, Zhiqing Yuan, Shaoqing Jin, Wei Liu, Zhendong Wang, Chuanming Wang, Yangdong Wang, Weimin Yang*, Ming-Yuan He*. Chinese Journal of Catalysis,2019, 40: 856-866.
18.A Facile and Green Method for the Synthesis of SFE Borosilicate Zeolite and Its Heteroatom-Substituted Analogues with Promising Catalytic Performances. Yi Luo, Zhendong Wang*, Junliang Sun*, Yingying Wang, Shaoqing Jin, Bin Zhang, Hongmin Sun, Weimin Yang*. Chemistry - A European Journal, 2018, 24(2): 306-311.
19.Crystallization of ATO silicoaluminophosphates nanocrystalline spheroids using a phase-transfer synthetic strategy for n-heptane hydroisomerization. Tao Yue, Wei Liu, Liyuan Li, Xiaoling Zhao, Kake Zhu*, Xinggui Zhou, Weimin Yang*. Journal of Catalysis,2018, 364: 308-327.
20.Revealing the Size Effect of Platinum Cocatalyst for Photocatalytic Hydrogen Evolution on TiO2 Support: A DFT Study. Dong Wang, Zhi-Pan Liu*, Weimin Yang*.ACS Catalysis,2018, 8: 7270-7278.
21.A Facile Organosilane-based Strategy for Direct Synthesis of Thin MWW-type Titanosilicate with High Catalytic Oxidation Performance. Shaoqing Jin, Guiju Tao, Shilin Zhang, Yi Luo, Wenhua Fu, Zhendong Wang, Huanxin Gao, Hongmin Sun, Weimin Yang*. Catalysis Science & Technology, 2018, 8(23): 6076-6083.
22.Dispersity, Mesoporous Structure and Particle Size Modulation of Hollow Mesoporous Silica Nano-Particles with Excellent Adsorption Performance. Guiju Tao, Wenjun He, Yu Wang, Fengping Yu, Junwei Ge, Weimin Yang*. Dalton Transactions, 2018, 47(38): 13345-13352.
23.Synthesis and Structure Determination of Large-Pore Zeolite SCM-14. Yi Luo, Stef Smeets, Fei Peng, Ahmed S. Etman, Zhendong Wang*, Junliang Sun*, Weimin Yang*. Chemistry - A European Journal, 2017, 23(66): 16829-16834.
24.The tailored synthesis of nanosized SAPO-34 via time-controlled silicon release enabled by an organosilane precursor. Jingwei Zheng, Jiajia Ding, Dongliang Jin, Guanghua Ye, Kake Zhu, Xinggui Zhou*, Weimin Yang*, Weikang Yuan. Chemical Communications, 2017, 45: 6132-6135.
25.The evolution of titanium species in boron-containing Ti-MWW zeolite during post-treatment revealed by UV resonance Raman spectroscopy.Shilin Zhang, Shaoqing Jin*, Guiju Tao, Zhendong Wang, Wei Liu, Yi Chen, Juan Luo, Bin Zhang, Hongmin Sun, Yangdong Wang, Weimin Yang*.Microporous and Mesoporous Materials, 2017, 253: 183-190.
26.Proton-Promoted Electron Transfer in Photocatalysis: Key Step for Photocatalytic Hydrogen Evolution on Metal/Titania Composites Dong Wang, Zhi-Pan Liu*, Wei-Min Yang*. ACS Catalysis,2017, 7(4): 2744-2752.
27.UV resonance Raman spectroscopic insight into titanium species and structure-performance relationship in boron-free Ti-MWW zeolite. Shaoqing Jin*, Zhendong Wang, Guiju Tao, Shilin Zhang, Wei Liu, Wenhua Fu, Bin Zhang, Hongmin Sun, Yangdong Wang, Weimin Yang*. Journal of Catalysis,2017, 353: 305-314.
28.Direct Synthesis of Hydrothermally Stable Ge-IWR Zeolites. Wenhua Fu, Zhiqing Yuan, Zhendong Wang, Yangdong Wang, Weimin Yang*, Mingyuan He. Dalton Transactions, 2017, 46(20): 6692-6699.
29.Advances in Development and Industrial Applications of Ethylbenzene Processes. Weimin Yang*, Zhendong Wang, Hongmin Sun, Bin Zhang. Chinese Journal of Catalysis, 2016, 37(1): 16-26.