北京康威能特环境技术有限公司
Beijing Convenient Environmental Tech Co.Ltd 


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中科院生态中心-贺泓课题组
作者:康威能特 时间:2019-07-31

贺泓,河北省邯郸市人。 1994年毕业于日本东京大学,获理学博士学位。 现任中国科学院生态环境研究中心副主任,区域大气环境研究卓越创新中心首席科学家。

研究方向

 主要研究方向为环境催化与非均相大气化学过程,目前重点致力于环境催化体系设计、技术研发及其在大气污染物催化净化方面的应用,取得了柴油车排放污染控制、室内空气净化和大气灰霾成因及控制方面的系列成果。发表《环境催化—原理及应用》中文专著一部,英文专著两章节;学术论文340余篇(SCI论文296篇),被引用超过10,000次。获授权中国和国际发明专利40余项,其中近半数已经实施应用。

研究项目


_ 中国科学院先导技术专项B:大气灰霾追因与控制,XDB05000000,首席科学家,2012.10-2017.09

_ 国家重点研发计划:柴油车NOx后处理关键技术,2017YFC0211101,主持,2017.07-2020.12

_ 国家自然科学基金重点基金:柴油车尾气净化用高性能NH3-SCR催化剂基础研究, 21637005,主持,2017.01-2021.12


荣誉获奖

2017-12-01 何梁何利基金科学与技术创新奖

2014-12-01 国家科学技术进步奖二等奖

2011-12-01 国家技术发明奖二等奖

近期主要论著

 

[1] Chu B, Liu Y, Li J, et al. Decreasing effect and mechanism of FeSO4 seed particles on secondary organic aerosol in α-pinene photooxidation[J]. Environmental Pollution. 2014, 193: 88-93.

2014-Chu-EP-FeSO4 seed SOA from a-pinene.pdf


[2] He H, Wang Y, Ma Q, et al. Mineral dust and NOx promote the conversion of SO2 to sulfate in heavy pollution days[J]. Scientific Reports. 2015, 4(1).

2014-He-SR-Mineral dust and NOx promote SO2 to sulfate.pdf


[3] Chu B, Liu T, Zhang X, et al. Secondary aerosol formation and oxidation capacity in photooxidation in the presence of Al2O3 seed particles and SO2[J]. Science China Chemistry. 2015, 58(9): 1426-1434.

2015-Chu-Sci China-Al2O3 seed and SO2 on SOA.pdf


[4] Chu B, Zhang X, Liu Y, et al. Synergetic formation of secondary inorganic and organic aerosol: effect of SO2 and NH3 on particle formation and growth[J]. Atmospheric Chemistry and Physics. 2016, 16(22): 14219-14230.

2016-Chu-ACP-effect of SO2 and NH3 on SA.pdf


[5] Chu B, Liggio J, Liu Y, et al. Influence of metal-mediated aerosol-phase oxidation on secondary organic aerosol formation from the ozonolysis and OH-oxidation of α-pinene[J]. Scientific Reports. 2017, 7(1).

2016-Chu-metal seed on SOA from a-pinene.pdf


[6] Chen T, Liu Y, Ma Q, et al. Significant source of secondary aerosol: formation from gasoline evaporative emissions in the presence of SO2 and NH3[J]. Atmospheric Chemistry and Physics. 2019, 19(12): 8063-8081.

2019-Chen-ACP-effect of SO2 NH3 on SOA from gasoline.pdf


[7] Chen T, Liu Y, Liu C, et al. Important role of aromatic hydrocarbons in SOA formation from unburned gasoline vapor[J]. Atmospheric Environment. 2019, 201: 101-109.

2019-Chen-AE-aromatic SOA from unburned gasoline.pdf


[8] Chen T, Chu B, Ge Y, et al. Enhancement of aqueous sulfate formation by the coexistence of NO2/NH3 under high ionic strengths in aerosol water[J]. Environmental Pollution. 2019, 252: 236-244.

2019-Chen-EP-aqueous sulfate formation.pdf


[9] Chen T, Liu Y, Chu B, et al. Differences of the oxidation process and secondary organic aerosol formation at low and high precursor concentrations[J]. Journal of Environmental Sciences. 2019, 79: 256-263.


2019-Chen-JES-SOA from low or high precursor.pdf