2003年7月陜西師范大學(xué)化學(xué)專業(yè)，理學(xué)學(xué)士; 2006年7月蘭州大學(xué)無機(jī)化學(xué)，理學(xué)碩士；2009年7月中國科學(xué)院生態(tài)環(huán)境研究中心環(huán)境工程專業(yè)，工學(xué)博士。2009年7月至2014年2月先后在日本名古屋大學(xué)及新加坡國立大學(xué)從事研究工作，分別擔(dān)任Assistant Specialist 和Senior Assistant Researcher。 2014年2月任生態(tài)環(huán)境研究中心研究員。

危險(xiǎn)固體廢物處理處置；有機(jī)固體廢棄物資源化利用；廢棄生物質(zhì)能源化及材料化利用；生物質(zhì)基納米炭材料的制備及應(yīng)用；污染土壤修復(fù)技術(shù)及材料研發(fā)

中科院擇優(yōu)支持項(xiàng)目-城鎮(zhèn)生活垃圾無害化及資源化利用
人社部留學(xué)人員科技活動(dòng)項(xiàng)目
中科院STS項(xiàng)目（明膠固廢資源化利用/鄉(xiāng)村生物源廢棄物循環(huán)及示范）
住建部研究項(xiàng)目-德國、日本農(nóng)村生活垃圾治理制度與案例分析
中科院重大儀器研制項(xiàng)目
北京市科技計(jì)劃課題
四川省省院省校聯(lián)合科研項(xiàng)目（重大）
橫向項(xiàng)目-生活垃圾聯(lián)合厭氧發(fā)酵沼渣/污泥資源化利用
橫向項(xiàng)目-新型直飲水微污染凈化炭膜的研發(fā)及應(yīng)用
橫向項(xiàng)目-抗生素菌渣資源化利用

1. Q. Lang., B. Zhang., Z. Liu*., Z. Chen., Y. Xia., D. Li., J. Ma., C. Gai. Co-hydrothermal carbonization of corn stalk and swine manure: Combustion behavior of hydrochar by thermogravimetric analysis. Bioresoruce Technology 2019,271,75-83.
2. Q. Lang.，M. Chen.，Y. Guo.，Z. Liu*.，C. Gai. Effect of hydrothermal carbonization on heavy metals in swine manure: Speciation, bioavailability and environmental risk. Journal of Environmental Management 2019:234,97-103.
3. Q. Lang., B. Zhang., Z. Liu*., W. Jiao., Y. Xia., Z. Chen., D. Li., J. Ma., C. Gai. Properties of hydrochars derived from swine manure by CaO assisted hydrothermal carbonization. Journal of Environmental Management 2019,233:440-446.
4. J. Ma., M. Chen., T. Yang., Z. Liu*., W. Jiao., D. Li., C. Gai. Gasification performance of the hydrochar derived from co-hydrothermal carbonization of sewage sludge and sawdust. Energy 2019,173:732-739.
5. C. Gai., N. Zhu., S.K. Hoekman., Z. Liu*., W. Jiao., N. Peng. Highly dispersed nickel nanoparticles supported on hydrochar for hydrogen-rich syngas production from catalytic reforming of biomass. Energy Conversion and Management 2019,183:474-484.
6. J. Ma., H. Luo., Y. Li., Z. Liu*., D. Li., C. Gai., W. Jiao. Pyrolysis kinetics and thermodynamic parameters of the hydrochars derived from co-hydrothermal carbonization of sewage sludge and sawdust using thermogravimetric analysis. Bioresource Technology 2019,282:133-141.
7. D. Li., Y. Li., H. Liu., J. Ma., . Liu*., W. Jiao. Synthesis of biomass tar-derived foams through spontanesous forming for ultra-efficient herbicide removal from aqueous solution. Sciences of the Total Environment 2019,673:110-119.
8. Y. Xia., T. Yang., N. Zhu., D. Li., Z. Chen., Q. Lang., Z. Liu*., W. Jiao. Enhanced adsorption of Pb(II) onto modified hydrochar: Modeling and mechnism analysis. Bioresource Technology 2019;288:121596.
9. Y. Xia., H. Liu., Y. Guo., Z. Liu*., W. Jiao. Immobilization of heavy metas in contaminated soils by modified hydrochar: efficiency, risk assessement and poterntial mechanisms. Science of the Total Environment 2019;685:1201-1208.
10. Q. Lang., H. Luo., Y. Li., D. Li., Z. Liu*., T. Yang. Thermal behavior of hydrochar from co-hydrothermal carbonziation of swine manure and sawdust: effect of process water recirculation. Sustainable Energy and Fuel 2019,3,2329-2336.
11. Q. Lang., B. Zhang., Y. Li., Z. Liu*., W. Jiao. Formation and toxicity of polycyclic hydrocarbons during CaO assissted hydrothermal carbonzaiton of swine manure. Waste Management 2019,100:84-90.
12. D. Li., T. Yang., Y. Li., Z. Liu*., W. Jiao. Facile and green synthesis of highly dispersed tar-based heterogeneous Fenton catalytic nanoparticles for the degradation of methylene blue. Journal of Cleaner Production 2019,119033.
13. T. Liu., Q. Lang., Y. Xia., Z. Chen., D. Li., J. Ma., C. Gai., Z. Liu*. Combination of hydrothermal carbonization and oxy-fuel combustion process for sewage sludge tratment: Combustion characteriistics and kinetics analysis. Fuel 2019;242:265-276
14. C. Gai., T.Yang., H. Liu., Z. Liu*., W. Jiao. Green synthesis of hydrochar supported bimetallic nanocatalysts for sustainable H2 production by sorption-enhanced steam reforming of acetic acid. ACS Applied Nano Materials 2019, 2, 11, 7279-7289
15. T. Liu., Z. Liu*., Q. Zheng., Q. Lang., Y. Xia., N. Peng., C. Gai. Effect of hydrothermal carbonization on migration and environmental risk of heavy metals in sewage sludge during pyrolysis. Bioresource Technology 2018;247:282-290.
16. C. Gai., F. Zhang., T. Yang., Z. Liu*., W. Jiao., N. Peng., T. Liu., Q. Lang., Y. Xia. Hydrochar supported bimetalliuc Ni-Fe nanocatalysts with tailored composition, size and shape for improved biomass steam reforming performance. Green Chemistry 2018,20,2788-2800.
17. Q. Lang., Y. Guo.. Q. Zheng., Z. Liu*. Co-hydrothermal carbonization of lignocellulosic biomass and swine manure: Hydrochar properties and heavy metal transformation behavior. Bioresoruce Technology 2018,266,242-248.
18. C. Gai., F. Zhang., Q. Lang., T. Liu., N. Peng., Z. Liu*. Facile one-pot synthesis of iron nanoparticles immobilized into the porous hydrochar for catalytic decomposition of phenol. Applied Catalysis B: Environmental 2017;204:566-76.
19. C. Gai., F. Zhang., Y. Guo., N. Peng., T. Liu., Q. Lang., Y. Xia., Z. Liu*. Hydrochar-supported, in-situ generated nickel nanoparticles for sorption-enhanced catalytic gasification of sewage sludge. ACS Sustainable Chemistry&Engineering  2017;5:7613-7622.
20. 彭娜娜，劉婷婷，蓋超，劉振剛，李益。城市垃圾生物質(zhì)組分混煤燃燒過程積灰結(jié)渣的特性及其灰分環(huán)境效應(yīng)。環(huán)境工程學(xué)報(bào) 2017(2):1075-1079.