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中国科学院上海高等研究院导师教师师资介绍简介-孙楠楠

本站小编 Free考研考试/2021-02-14

id:44
tutorAreaId:14
name:孙楠楠
phone:
sex:1
post:
title:研究员
address:海科路100号9A楼403室
zipCode:201210
email:sunnn@sari.ac.cn
headImgUrl:/upload/**/20**6054.jpg
resume: 孙楠楠,1983年生,中国科学院上海高等研究院室气体与环境工程中心研究员,中国科学院青年创新促进会成员。2011年毕业于中国科学院山西煤炭化学研究所,同年留山西煤化所工作,任助理研究员。2012年至2014年赴英国诺丁汉大学开展博士后研究工作,目前承担中国科学院战略性先导科技专项、国家自然科学基金等项目,参与编写了《中国二氧化碳利用技术评估报告》,并作为项目骨干完成国家科技支撑计划重大项目、国家973、863计划、英国EPSRC资助等项目。目前在国内外重要学术期刊上发表论文30余篇。

yjly:1. 气体吸附和储存材料
2. 小分子催化材料
3. 二氧化碳捕获、利用和封存

jljry:
cdky:1、中国科学院战略性先导科技专项(B类),XDB**、页岩储层无水压裂关键技术研究---无水介质压裂理论和调控技术、2014/01-2018/12,、在研、主持。
2、中国科学院战略性先导科技专项(B类),XDB**、页岩储层无水压裂关键技术研究---规模化验证和技术基础软件包技术形成、2014/01-2018/12、在研、主持。
3、国家自然科学基金,**、Ni 基催化剂上CH4-CO2 重整反应积碳研究、2013/01-2015/12、在研、主持。
4、山西省自然科学基金,-5、N Ni基CH4-CO2重整反应催化剂积碳行为和性质研究、2012/01-2014/12、已结题、主持。
5、国家973项目,2011CB201405、褐煤分级转化过程中CO2的循环利用、2011/01-2015/12、在研、参加。



dblz:
1.X. Song, Y. Guo, J. Zhang, N. Sun, G. Shen, X. Chang, W. Yu, Z. Tang, W. Chen, W. Wei, L. Wang, J. Zhou, X. Li, X. Li, J. Zhou, Z. Xue. Fracturing with Carbon Dioxide: From Microscopic Mechanism to Reservoir Application[J]. Joule, 2019, 10.1016/j.joule.2019.05.004:
2.H. Y. Zhao, L. Shi, Z. Z. Zhang, X. N. Luo, L. N. Zhang, Q. Shen, S. G. Li, H. J. Zhang, N. N. Sun, W. Wei, Y. H. Sun. Potassium Tethered Carbons with Unparalleled Adsorption Capacity and Selectivity for Low-Cost Carbon Dioxide Capture from Flue Gas[J]. Acs Appl Mater Inter, 2018, 10(4): 3495-3505.
3.C. Wang, Y. Qiu, X. Zhang, Y. Zhang, N. Sun, Y. Zhao. Geometric design of a Ni@silica nano-capsule catalyst with superb methane dry reforming stability: enhanced confinement effect over the nickel site anchoring inside a capsule shell with an appropriate inner cavity[J]. Catal Sci Technol, 2018, 8(19): 4877-4890.
4.J. L. Shi, G. F. Shen, H. Y. Zhao, N. N. Sun, X. H. Song, Y. T. Guo, W. Wei, Y. H. Sun. Porosity at the interface of organic matter and mineral components contribute significantly to gas adsorption on shales[J]. Journal of Co2 Utilization, 2018, 28: 73-82.
5.Z. Z. Zhang, H. Y. Zhao, L. N. Zhang, N. N. Sun, W. Wei, Y. H. Sun. One-Pot Solvent-Free Strategy for the Facile and Fast Synthesis of Highly Enriched Nitrogen-Doped Carbons[J]. J Phys Chem C, 2017, 121(21): 11524-11533.
6.C. Wang, N. Sun, N. Zhao, W. Wei, Y. Zhao. Template-free preparation of bimetallic mesoporous Ni-Co-CaO-ZrO2 catalysts and their synergetic effect in dry reforming of methane[J]. Catalysis Today, 2017, 281: 268-275.
7.Q. Shen, L. Zhang, N. Sun, H. Wang, L. Zhong, C. He, W. Wei, Y. Sun. Hollow MnOx-CeO 2 mixed oxides as highly efficient catalysts in NO oxidation[J]. Chem Eng J, 2017, 322: 46-55.
8.X. Huang, C. Ji, C. Wang, F. Xiao, N. Zhao, N. Sun, W. Wei, Y. Sun. Ordered mesoporous CoO-NiO-Al2O3 bimetallic catalysts with dual confinement effects for CO2 reforming of CH4[J]. Catalysis Today, 2017, 281: 241-249.
9.C. Zhu, Z. Zhang, B. Wang, Y. Chen, H. Wang, X. Chen, H. Zhang, N. Sun, W. Wei, Y. Sun. Synthesis of HKUST-1#MCF compositing materials for CO 2 adsorption[J]. Microporous and Mesoporous Materials, 2016, 226: 476-481.
10.C. Wang, N. Sun, W. Wei, Y. Zhao. Carbon intermediates during CO2 reforming of methane over NiCaOZrO2 catalysts: A temperature-programmed surface reaction study[J]. Int J Hydrogen Energ, 2016, 41(42): 19014-19024.
11.B. Wang, C. Zhu, Z. Zhang, W. Zhang, X. Chen, N. Sun, W. Wei, Y. Sun, H. Ji. Facile, low-cost, and sustainable preparation of hierarchical porous carbons from ion exchange resin: An improved potassium activation strategy[J]. Fuel, 2016, 179: 274-280.
12.B. Wang, Z. Zhang, C. Zhu, L. Zhang, N. Sun, W. Wei, Y. Sun. Enhancing low pressure CO2 adsorption of solvent-free derived mesoporous carbon by highly dispersed potassium species[J]. Rsc Adv, 2016, 6(40): 33580-33588.
13.X. Huang, G. Xue, C. Wang, N. Zhao, N. Sun, W. Wei, Y. Sun. Highly stable mesoporous NiO–Y2O3–Al2O3 catalysts for CO2 reforming of methane: effect of Ni embedding and Y2O3 promotion[J]. Catal Sci Technol, 2016, 6(2): 449-459.
14.Nannan Sun, Chenggong Sun, et al., Synthesis, characterization and evaluation of activated spherical carbon materials for CO2 capture, Fuel, 113 (2013) 854-862.
15.Nannan Sun, Xia Wen, et al., Catalytic performance and characterization of Ni-CaO-ZrO2 catalysts for dry reforming of methane, Applied Surface Science, 257 (2011) 9169-9176.
16.Nannan Sun, Xia Wen, et al., Effect of pore structure on Ni catalyst for CO2 reforming of CH4, Energy & Environmental Science, 3 (2010) 366-369.
17.Changzhen Wang, Nannan Sun, et al., Bi-functional Mechanism of CH4 Dry Reforming over a Ni-CaO-ZrO2 Catalyst: Further Evidence via Active Sites Identification and Kinetic Studies, Catalysis Science & Technology, 3 (2013) 2435-2443.
18.Xin Huang, Nannan Sun, et al., Effect of pore geometries on the catalytic properties of NiO-Al2O3 catalysts in CO2 reforming of methane,RSC Advances, 5 (2015) 21090-21098.
19.Changzhen Wang, Nannan Sun, et al., Coking and deactivation of a mesoporousNi-CaO-ZrO2 catalyst in dry reforming of methane: A study under different feeding compositions,Fuel,143 (2014)527-535.
20.Changzhen Wang, Nannan Sun,et al., The properties and their influence on catalyst deactivation of individual carbon residuals over Ni-CaO-ZrO2 catalysts in CH4 dry reforming, ChemCatChem, 6 (2014) 640-648.
21.Hongyu Zhao, Lei Shi, et al., Potassium Tethered Carbons with Unparalleled Adsorption Capacity and Selectivity for Low-Cost Carbon Dioxide Capture from Flue Gas, ACS Appl. Mater. Interfaces, 10 (2018) 3495.
22.Qun Shen, Lingyun Zhang, et al., Hollow MnOx-CeO2 mixed oxides as highly efficient catalysts in NO oxidation, Chemical Engineering Journal 322 (2017) 46.

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