1. 代表性论文

1)      Qiu Yu,   Wu Chongchong, Gates Ian, Yang Yuanxi, Guo Shuhai, Men Zhuowu, Lou Bin, Yang Xiujie, Shi Nan, Wen Fushan, Yin Changlong, Zhou Jiashun, Li Ben,   Chou Weichao, Liu Dong*. Isolated Co-Ti-Y Trimetallic   Synergistic Catalysis Based on Apparent Anti-Electronegative Polarization. ADVANCED FUNCTIONAL MATERIALS, 2022, 2207482

2)      Weichao   Chou, Dong Liu*,   Weizhen Li, Xin Chou,Hua Liu, Chongchong Wu, Peng Wu, Zhuowu Men, Zhiheng Li.   Full utilization of lignocellulose through one-pot in situ hydro-liquefaction   with versatile Pt/CeCrO2-x   catalyst.   Applied Catalysis B: Environmental. 2022.121625  

3)      Dong   Liu*, Zhiheng Li, Chongchong Wu, Linhua Song, PingPing Wu, Mengfei Li, Chen   Wang, Zhuowu Men, Zifeng Yan, Ian D. Gates. Exploration of in-situ formed   MoSx catalyst for co-hydrodeoxygenation of sawdust and vacuum gas oil in   pilot-scale plant. Applied Catalysis B: Environmental, 2021;197:120499, （IF   19.03）

4)      Yajing   Duan, Zhaojun Chen, Dong Liu*, Enqiang Yu, Xiaodong Zhang, Hui Fu, Jinzhe Fu,   Jiatao Zhang*, Hui Du*. Amorphous molybdenum sulfide nanocatalysts   simultaneously realizing efficient upgrading of residue and synergistic   synthesis of 2D MoS2 nanosheets/carbon hierarchical structures. Green   Chemistry 2020; 22: 44-53. （IF 9.13）

5)       Zhiheng Li, Dong Liu*, Zhuowu Men,Linhua Song, Yijun Lv, PingPing Wu Bin Lou, Yadong   Zhang, Nan Shi and Qingtai Chen. Insight   into effective denitrification and desulfurization of fuel oil with deep   eutectic solvents: an innovativeevaluation criterion to filtrate extractants using compatibility   index. Green Chemistry, 2018, 20，3112-3120.（IF   9.13）

6)      Ming   Zhao, Xiangyu Wang, Dong Liu*, Zhiheng Li, Shuhai Guo, Wei Zhu, Nan Shi,   Fushan Wen, Jian Dong. Insight into essential channel effect of pore   structures and hydrogen bonds on the solvent extraction of oily sludge.   Journal of Hazardous Materials 2020; 389: 121826. （IF   7.35）

7)      Xin   Gong, Bin Lou, Ran Yu, Zhichen Zhang, Shuhai Guo, Gang Li, Bo Wu, Dong Liu*.   Carbonization of mesocarbon microbeads prepared from mesophase pitch   withdifferent anisotropic contents and their application in lithium-ion   batteries. Fuel Processing Technology 2021; 217: 106832. （IF   7.01）

8)      Zhichen   Zhang, Bin Lou, Ning Zhao, Enqiang Yu, Zenghao Wang, Hui Du, Zhaojun Chen,   Dong Liu*. Co-carbonization behavior of the blended heavy oil and low   temperature coal tar for the preparation of needle coke. Fuel 2021;   302:121139. （IF   6.69）

9)      Zhichen   Zhang, Hui Du* , Shuhai Guo, Bin Lou, Ran Yu, Xin Gong, Zhiheng Li, Min Li,   Yajing Duan, Huizhi Yuan, Dong Liu*. Probing the effect of molecular   structure and compositions in extracted oil on the characteristics of needle   coke. Fuel 2021; 301(9):120984. （IF 6.69）

10)   Nan   Shi, Dong Liu*, Falu Dang, Qingtai Chen, Min Li, Fushan Wen. Bifunctional and   recyclable Dawson-type polyoxometalates catalyze oxidative degradation of   lignocellulose to selectively produce phthalates. Bioresource Technology   2019; 273: 677-681. （IF   6.71）

11)   Qingtai   Chen, Dong Liu*, Chongchong Wu, Kaisheng Yao, Zhiheng Li, Nan Shi, Fushan   Wen, Ian D. Gates. Co-immobilization of cellulase and lysozyme on   amino-functionalized magnetic nanoparticles: An activity-tunable biocatalyst   for extraction of lipids from microalgae. Bioresource Technology, 263, (2018)   317-324.

12)   Dong   Liu *, Ran Yu, Jianping Niu, Bin Lou, Yue Fu, Shuhai Guo, Ning Zhao, Enqiang   Yu. The effect of accumulation of polycyclic aromatics in FCC decant oil on   subsequent pyrolysis behaviors. Fuel 270 (2020) 117529

13)   Zhichen   Zhang, Bin Lou*, Ning Zhao, Enqiang Yu, Zenghao Wang, Hui Du, Zhaojun Chen,   Dong Liu*. Co-carbonization behavior of the blended heavy oil and low   temperature coal tar for the preparation of needle coke. Fuel 2021;   302:121139.

14)   Zhichen   Zhang, Xiaoqiao Huang, Lanjie Zhang, Shuhai Guo, Hui Du, Zhaojun Chen, Bo Wu,   Gang Li, Dong Liu*. Study on the evolution of oxygenated structures in   low-temperature coal tar during the preparation of needle coke by   co-carbonization. Fuel 2021; 307: 120984.

15)   Nan   Shi, Dong Liu*, Qiang Huang, Zhongshan Guo, Ruixue Jiang, Feng Wang, Qingtai   Chen, Min Li, Guobo Shen, Fushan Wen. Product-oriented decomposition of   lignocellulose catalyzed by novel polyoxometalates-ionic liquid mixture.   Bioresource Technology 2019; 283: 174-183.

16)   Zhichen   Zhang, Enqiang Yu, Yanjun Liu, Fushan Wen, Nan Shi, Hui Du, Zhaojun Chen,   Zhichao Wang, Dong Liu*.The effect of composition change and allocation in   raw material on the carbonaceous structural evolution during calcination   process.Fuel 2022; 309:122173.

17)   Bin   Lou, Dong Liu⁎, Yue Fu, Ning Zhao, Zhiheng Li, Ran Yu, Shuhai Guo, Wei Zhu,J   ian Dong. Investigation on the development and orientation of mesophase   microstructure during the two-stage pyrolysis of FCC decant oil. Fuel 263   (2020) 116626，

18)   Bin   Lou; Dong Liu; Yu Qiu; Yue Fu; Shuhai Guo; Ran Yu; Xin Gong; Zhichen Zhang;   Xiaoyu He. Modified effect on properties of mesophase pitch prepared from   various two-stage thermotreatments of FCC decant oil. Fuel 2020 247: 97-107.

19)   Ran   Yu, Dong Liu*, Bin Lou, Wei Zhu, Shuhai Guo, Xin Gong, Zhichen Zhang, Jiashun   Ye, Chao Zhu. The effect of solvent extraction on petroleum pitch   compositions and their pyrolysis behaviors. Fuel 2019; 247: 97-107.

20)   Yadong   Zhang, Dong Liu*, Zhuowu Men, Ke Huang, Yijun Lv, Ming Li*, Bin Lou.   Hydroisomerization of n-dodecane over bi-porous Pt-containing bifunctional   catalysts: Effects of alkene intermediates’ journey distances within the   zeolite micropores. Fuel 2019; 236: 428-436.

2.专利（第1发明人代表性授权专利）

1)        美国专利 (US11149361B1)，Preparation   Methods of High Modulus Carbon Fiber and recursor.

2)        美国专利（US11286425B2）,Method   for Preparing Needle Coke for Ultra-High Power(UHP) Electrodes From Heavy Oil.

3)       美国专利（US11292038B2）Combined   Treatment Method of Petroleum-Contaminated Soil.

4)       中国发明专利ZL201610921274.3：一种石油沥青基碳纤维的制备方法   

5)       中国发明专利ZL01610921000.4：一种沥青基碳纤维的制备方法

6)       中国发明专利ZL01610821901.3：一种中间相沥青制备优质针焦电极材料的方法   

7)       中国发明专利ZL201610829264.3：一种重质油制备优质针状焦的方法

8)       中国发明专利ZL01610621701.8：一种重质油制备优质针状焦的连续工艺   

9)       中国发明专利ZL201510189956.5：一种中间相沥青的制备方法

10)    中国发明专利ZL201510189928.3：以加氢裂化尾油制备中间相沥青的方法

11)    中国发明专利ZL 201510690129.4：一种催化裂化油浆加氢异构-热缩聚制备中间相沥青的方法

12)    中国发明专利ZL 201510690800.5：一种催化裂化油浆氢化还原-共炭化制备中间相沥青的方法

13)    中国发明专利（ZL 2012100933193.0）一种高硫原油预脱硫的方法   

14)    中国发明专利（ZL201410416716.X）一种石油基环保型橡胶增塑功能材料的制备方法

15)    中国发明专利（ZL201310151226.7）一种用于悬浮床加氢裂化过程的超分散纳米催化剂

16)    中国发明专利（ZL201310204649.0）一种重油-生物质加氢共液化处理工艺

17)    中国发明专利（ZL201310202262.1）一种环烷基石油供氢馏分存在下生物质供氢热解工艺

18)    中国发明专利（ZL201310186945.2）一种高中间相含量中间相沥青的制备方法

19)    中国发明专利（ZL201110360424.5）一种用于生物质加氢液化的过渡金属离子液体催化剂

20)    中国发明专利（ZL201410416715.5）一种环保型石油基橡胶软化功能材料的制备方法

21)    中国发明专利（ZL201810597710.5）一种高有序度针状石油焦的制备方法

22)    中国发明专利（ZL201910336187.5）一种生产优质针状焦的连续工艺

23)  中国发明专利，ZL202010439569.3一种高模量碳纤维与其前驱体中间相沥青的制备方法

24)  中国发明专利，ZL201810278833.2，一种超临界流体梯级萃取—氧化降解耦合处理含油污泥的组合工艺

25)  中国发明专利，ZL202010439340X，一种重质油制备超高功率电极用针状焦的方法

26)  中国发明专利，ZL2020104393359，一种重质油体积排阻分离-分级炭化制备优质针状焦的方法

27)  中国发明专利，一种高浓度环烷基原油污染土壤清洗方法，ZL2020103842098

28)  中国发明专利，一种石油污染土壤的联合处理方法，ZL2020103842083

29)  中国发明专利，ZL 2020100004099，一种利用针状焦制备超高功率电极材料的工艺方法

30)  中国发明专利，一种中间相沥青与高模量沥青基碳纤维的制备方法，ZL2020104393382