2024

91. Mahendran, V., Trinh, Q.T., Xie, Z., Jonnalagadda, U., Gould, T., Nguyen, N-T., Kwan, J., Choksi, T.S., Liu, W., Valange, S., Jerome, F., *Amaniampong, P. N. Localized oxidative catalytic reactions triggered by cavitation bubbles confinement on copper oxide microstructures particles. Angweandte Chemie. Accepted manuscript.

90. Self, T.J., Niu, J., Liu, W., He, C., *Tan, M.C. A sustainable redox-mediated pathway for improved transition metal organic framework activation and CO2 uptake performance. Journal of Materials Chemistry A. Accepted manuscript.

89. Xie, Z., Mahendran, B.,, Jonnalagadda, U. S., Fan, Q., Su, X., , Fischer, A., Tan, W., Tao, L., Jérôme, F., Kwan, J.J., *Valange, S., *Choksi, T.S., *Amaniampong, P.N., *Liu, W. Boosting energy efficiency and selectivity of glucose oxidation to glucuronic acid in high frequency ultrasound using multicavity CuO catalytic cavitation agents . Green Chemistry. Accepted manuscript. doi:10.1039/d4gc03775h.

88. Tiwari, S.B., Veksha, A., Chan, W.P., Fei, X., Liu, W., Lisak, G., *Lim, T-T. Directional sewage sludge transformation using acidic hydrothermal carbonization for enhanced alkaline extraction of phosporus. Resources, Conservation & Recycling. Accepted manuscript.

87. Yang, C.H.J.K, *Liu, G., Chan, W., Liu, W., Lim, T.T., *Lisak, G. Cement modified and copper oxide enriched ferric sludge as a oxygen carrier for chemical looping combustion: waste derived material performance and characteristics. Chemical Engineering Journal. 498, 155795. doi:10.1016/j.cej.2024.155795.

86. Li, S., Li, J., He, Z., Sheng, Y., *Liu, W. Superior catalytic combustion of methane over Pd supported on oxygen vacancy-rich NiAl2O4. Catalysis Science and Technology. Accepted manuscript. doi:10.1039/D4CY00620H.

85. Qian, J., Li, H., Sun, D., Shao, W., Fan, Q., Tao, L., Wu, X., Zhang, L., Chan, S.W., Basset, J. M., *Zhou, L., *Liu, W. Tuning Mg-Fe-O solid solutions towards optimized exsolution of active sites for thermal catalytic decomposition of methane. Chemical Engineering Journal. 497, 154595. doi:10.1016/j.cej.2024.154595.

84. Zhao, H., Liu, X., Zeng, C., Liu, W., *Tan, L. Thermaochemical CO2 reduction to methanol over metal-based single-atom catalyst (SACs): outlook and challenges for developments. Journal of the American Chemical Society. 146, 34, 23649-23662. doi:10.1021/jacs.4c08523.

83. Fan, Q., Li, H., Saqline, S., Donat, F., Tan, M., Tao, L., Müller, C.R., Xu, Z.J., *Liu, W. An investigation of the structural and electronic origins of enhanced chemical looping air separation performance of B-site substituted SrFe1-xCoxO3-δ perovskites. Physical Chemistry Chemical Physics. 26, 20511. doi:10.1039/D4CP02152E.

82. Zhao, H., Zhao, X., Zhang, J., Anandita, S., Liu, W., Koh, S.W., Yu, S., Li, C., Chen, Z., Xu, R., *Tu, W., *Li, H., Solar-driven photoelectrochemical upcycling of polyimide plastic waste with safe green hydrogen generation. Advanced Energy Materials. Accepted manuscript. doi:10.1002/aenm.202400037.

81. Fischer, A.F., Bahry, T., Xie, Z., Qian, K., Li, R., Kwan, J., Jerome, F., Valange, S., *Liu, W., *Amaniampong, P.N., and *Choksi, T.S., Harnessing ultrasound-derived hydroxyl radicals for the selective oxidation of aldehyde functions. ChemSusChem. Accepted manuscript. doi:10.1002/cssc.202400838.

80. Belami, D., Lindley, M., Jonnalagadda, U.S., Bullock, A.M.G., Fan, Q., Liu, W., Haigh, S.J., Kwan, J., Regmi, Y., *King, L.A., Active and highly durable supported catalysts for proton exchange membrane electrolysers. EES Catalysis. 2. 1139-1151. doi:10.1039/d4ey00026a.

79. Lin, S., Gong, L., Zhao, N., Zhao, H., Zhao, F., Bai, Y., *Li, Z., *Liu, W. Tailoring metal-support interactions via spatial confinement of Ni/CeO2 interfaces on h-BN for efficient CO2 methanation. Chemical Engineering Journal. 494, 152937. doi:10.1016/j.cej.2024.152937.

78. Shao, Y., Wu, C., *Xi, S., Tan, P., Wu, X., Saqline, S., *Liu, W. Halite-structured (MgCoNiMnFe)Ox high entropy oxide (HEO) for chemical looping dry reforming of methane. Applied Catalysis B: Environment and Energy. 355, 124191. doi:10.1016/j.apcatb.2024.124191.

77. Qian, J., Shu, Q., He, B., Hua, Y., Ge, X., Sun, D., Liu, W., *Zhang, Q., *Zhou, L. Fluorine-decoration induced deep reconstruction of iron cobalt oxide for high-efficiency oxygen evolution reaction. International Journal of Hydrogen Energy. 68, 777-787. doi:10.1016/j.ijhydene.2024.04.312.

76. #Fan, Q., #Tan, M, Yao, B., Saqline, S., Tao, L., He, Q., *Liu, W. Synthesis of uniform Fe2O3@Y2O3 yolk-shell nanoreactors as chemical looping oxygen carriers. Applied Catalysis B: Energy and Environmental. 350, 123935. doi:10.1016/j.apcatb.2024.123935.

75. Afandi, N., Satgunam, M., Mahalingam, S., Manap, A., Nagi, F., Liu, W., Johan, R.B., Turan, A., Tan, A.W.Y., *Yunus, S. Review on the modifications of natural and industrial waste CaO based sorbent of calcium looping with enhanced CO2 capture capacity. Heliyon. 10, E27119. doi:10.1016/j.heliyon.2024.e27119.

74. Tiwari, S.B., Chi, S.Y., Veksha, A., Chan, W.P., Fei, X., Lisak, G., Liu, W., *Lim, T-T. Synergistic application of alum sludge and sequential extraction for phosphorus recovery from sewage sludge char. Chemical Engineering Journal. 481, 148574. doi:10.1016/j.cej.2024.148574.

73. Saqline, S., Wang, H., Fan, W., Donat, F., Müller, C., *Liu, W. Investigation of barium iron oxides for CO2 capture and chemical looping oxygen uncoupling. A comprehensive review of carbon capture science and technologies. Applications in Energy and Combustion Science. 17, 100238. doi:10.1016/j.jaecs.2023.100238.

72. *Wu, C., Huang, Q., Xu, Z., Sipra, A. T., Gao, N., *Vandenberghe, L. P. d. S., *Vieira, S., Soccol, C. R., Zhao, R., *Deng, S., *Boetcher, S. K. S., *Lu, S., Shi, H., *Zhao, D., Xing, Y., *Chen, Y., Zhu, J., Feng, D., Zhang, Y., Deng, L., *Hu, G., Webley, P. A., *Liang, D., Ba, Z., Mlonka-Mędrala, A., *Magdziarz, A., *Miskolczi, N., Tomasek, S., *Lam, S. S., Foong, S. Y., Ng, H. S., *Jiang, L., Yan, X., Liu, Y., Ji, Y., *Sun, H., Zhang, Y., *Yang, H., Zhang, X., Sun, M., *Tsang, D. C. W., Shang, J., *Muller, C., Rekhtina, M., Krödel, M., Bork, A. H., Donat, F., *Liu, L., *Jin, X., *Liu, W., Saqline, S., Wu, X., Xu, Y., *Khan, A. L., Ali, Z., *Lin, H., Hu, L., *Huang, J., Singh, R., Wang, K., *He, X., *Dai, Z., *Yi, S., *Konist, A., *Baqain, M. H. S., Zhao, Y., Sun, S., Chen, G., *Tu, X., Weidenkaff, A., *Kawi, S., Lim, K. H., *Song, C., *Yang, Q., Zhao, Z., *Gao, X., *Jiang, X., *=Ji, H., Akinola, T. E., Lawal, A., Otitoju, O. S., *Wang, M., Zhang, G., Ma, L., Sempuga, B. C., *Liu, X., *Oko, E., Daramola, M., Yu, Z., *Chen, S., Kang, G., Li, Q., Gao, L., *Liu, L., *Zhou, H. A comprehensive review of carbon capture science and technologies. Carbon Capture Science and Technology. 11, 100178. doi:10.1016/j.ccst.2023.100178

71. Fulham, G.J., Wu, X., Liu, W., *Marek, E.W. Mechanistic insights into the role of zinc oxide, zirconia and ceria supports in Cu-based catalysts for CO2 hydrogenation to methanol. Chemical Engineering Journal. 480, 147732. doi:10.1016/j.cej.2023.147732

70. Sheng, Y., Polynski, M.V., Eswaran, M.K., Zhang, B., Lim, A.M.H., Zhang, L., Jiang, J., *Liu, W., *Kozlov, S.M. A review of mechanistic insights into CO2 reduction to higher alcohols for rational catalyst design. Applied Catalysis B: Environmental. 343, 123550. doi:10.1016/j.apcatb.2023.123550

2023

69. Lee, L.Q., Zhao, H., Lim, T.Y., Ge, J., Ding, O.L., *Liu, W., *Li, H. Green hydrogen generation assisted by electroreforming of raw sugarcane bagasse waste. Green Chemistry. 25, 7707. doi:10.1039/D3GC01603J

68. Saqline, S., Yang, L., Romangoli, A., *Liu, W. Coupling chemical looping air separation with the Allam cycle – a thermodynamic analysis. Journal of Cleaner Production. 418, 138097. doi:10.1016/j.jclepro.2023.138097

67. Wu, X., Chang, R., Tan, M., Tao, L., Fan, Q., Hu, X., Tan, H.L., Åhlén, M., *Cheung, O., *Liu, W. An investigation of the Ni/carbonate interfaces on dual function materials in integrated CO2 capture and utilisation cycles. Applied Catalysis B: Environmental. 338, 123053. doi:10.1016/j.apcatb.2023.123053

66. Du, L., Zhou, Z., Li, J., Hu, B., Wang, C., Zheng, J., Liu, W., *Li, R., *Chen, W. Highly efficient subambient all-day passive radiative cooling textiles with optically responsive MgO embedded in porous cellulose acetate polymer. Chemical Engineering Journal. 469, 143765. doi:10.1016/j.cej.2023.143765

65. Niu, J., Li, H., Tao, L., Fan, Q., *Liu, W., *Tan, M.C. Defect engineering of low-coordinated metal-organic frameworks (MOFs) for improved CO2 access and capture. ACS Applied Materials & Interfaces. 15, 26, 31664-31674. doi:10.1021/acsami.3c06183

64. Hu, X., Fan, Q., Tan, M., Luo, Y., Wu, X., Manuputty, M.Y., Ding, J., Choksi, T.S., Kraft., M., Xu, R., *Su, Z., *Liu, W. Investigating the impact of dynamic structural changes of Au/rutile catalysts on the catalytic activity of CO oxidation. Carbon Energy. In Press. doi:10.1002/cey2.412

63. Bahry, T., Jiang, S., Jonnalagadda, U., Liu, W., Teychené, B., Jerome, F., Mushrif, S., *Amaniampong, P. Water-assisted sonochemically-induced demethylenation of benzyl alcohol to phenol over a structurally stable cupric oxide catalyst. Catalysis Science and Technology. 13, 2982-2993. doi:10.1039/D3CY00100H

62. Boro, B., Paul, R., Tan, H.L., Trinh, Q.T., Rabeah, J., Chang, C-C., Pao, C.W., Liu, W., Nguyen, N-T., Mai, B., Mondal, J. Experimental Validation and Computational Predictions join forces to map Catalytic C-H Activation in Ferrocene Metalated Porous-Organic-Polymer. ACS Applied Materials and Interfaces. 15, 21027–21039 doi:10.1021/acsami.3c01393

61. Koh, C.H.J., *Liu, G, Chan, W.P., Zhao, Y., Liu, W., Lim, T.T., *Lisak, G. Oxygen carrier derived from ferric sludge for chemical looping combustion of MSW syngas: Waste derived material performance and carbon footprint assessment. Chemical Engineering Journal. 465, 142874. doi:10.1016/j.cej.2023.142874

60. Lim, L.H., Tan, P., Chan, W.P., Veksha, A., Lim, T-T., *Lisak, G., *Liu, W. A techno-economic assessment of the reutilisation of municipal solid waste incineration ash for CO2 capture from incineration flue gases by calcium looping. Chemical Engineering Journal. 464, 142567. doi:10.1016/j.cej.2023.142567

59. Tiwaria, S.B., Hooper, T.J.N, Veksha, A., Chan, W. P., Fei, W., Liu, W., Lisak, G., *Lim, T-T., 2023. Sequential wet extraction of phosphorus from sewage sludge using alum sludge: reassessing the aluminium-phosphorus speciation using experimental and simulation approach. Chemical Engineering Journal. 459, 141569. doi:10.1016/j.cej.2023.141569

58. Wang, Q., Wang, J., Rui, W., Yang, D., Wan, X., Zhou, C., Li, R., Liu, W., *Dai, Y., Yang, Y., 2023. Metal-carbonate interface promoted activity of Ag/MgCO3 catalyst for aqueous-phase formaldehyde reforming into hydrogen. Fuel. 337, 126897. doi:10.1016/j.fuel.2022.126897

57. Du., Tan, M., Wei, T., Kobayashi, H., Song., J., Peng, Z., Zhu, H., Jin, Z., *Li, R., *Liu, W., 2023. High Efficient and Robust Nickel-Iron Bifunctional Catalyst Coupling Selective Methanol Oxidation and Freshwater/Seawater Hydrogen Evolution via CO-Free pathway. Chemical Engineering Journal. 452, 139404. doi:10.1016/j.cej.2022.139404

56. Xu, T., *Wang, X., Zhao, H., Xiao, B., Liu, D., *Liu, W., 2023. Modulating Lattice Oxygen Activity of Ca2Fe2O5 for the Co-production of Syngas and High Purity Hydrogen via Chemical Looping Steam Reforming of Toluene. Applied Catalysis B: Environmental. 320, 122010. doi:10.1016/j.apcatb.2022.122010

2022

55. Zhu, H., Wong, R., Du, X., Du, L., Jin, Z., Qian, K., Song, J., *Li, R., *Liu, W., 2022. Synergistic effect of PtNi alloy loading on TiB2 to construct SMSI catalysing formic acid dehydrogenation. Sustainable Energy & Fuels. 6, 5531-5538. doi:10.1039/D2SE01048H

54. Boro, B., Koley, P., Tan, H.L., Biswas, S., Pau, R., Bhargava, S., Liu, W., *Wong, B., *Mondal, J., 2022. Influence of Intrinsic Nanocore Environment in Pd-Metalated Porous Organic Polymer for Catalytic Bio-Mass Derived Furfural Upgrading. ACS Applied Nano Materials. 5, 14706. doi:10.1021/acsanm.2c03052

53. Jonnalagadda, U.S., Fan, Q., Su, X., *Liu, W., *Kwan, J.K., 2022. Nanostructured Sonophotocatalysts for spatially controlled inertial cavitation towards energy-efficient sonochemistry. ChemCatChem. 14 (21), e202200732. doi:10.1002/cctc.202200732

52. Goel, A., Moghaddam, E., Liu, W., *He, C., Konttineng. J., 2022. Chemical Looping Gasification for High-Quality Syngas: A Critical Review and Technological Outlooks. Energy Conversion and Management. 268, 116020. doi:10.1016/j.enconman.2022.116020

51. Lu, N., *Yan, X., Tan, H. L., Kobayashi, H., Yu, X., Li, Y., Zhang, J., Peng, Z., Sui, J., Zhang, Z., *Liu, W., *Li, R., 2022. Carbon-catalyzed oxygen-mediated dehydrogenation of formaldehyde in alkaline solution for efficient hydrogen production. International Journal of Hydrogen Energy. 47, 27877. doi:10.1016/j.ijhydene.2022.06.134

50. Shen, X., Wang, Z., Wnag, Q., Tumurbaatar, C., *Bold, T., Liu, W., *Dai, Y., Tang, Y., Yang, Y., 2022. Modified Ni-carbonate interfaces for enhanced CO2 methanation activity: tuned reaction pathway and reconstructred surface carbonates. Journal of Catalysis. 413, 48-58. doi:10.1016/j.jcat.2022.06.001

49. Fan. Q., *Huang., C., Xi, S., Yan, Y., Huang, J., Saqline, S., Tao, L., Dai, Y., Borgna, A., *Wang, X., *Liu, W., 2022. Breaking the stoichiometric limit in oxygen carrying capacity of Fe-based oxygen carriers for chemical looping combustion using the Mg-Fe-O solid solution system. ACS Sustainable Chemsitry & Engineering. 10, 7242-7452. doi:10.1021/acssuschemeng.2c00271

48. Du, X., *Wei, T., Tan, W., Kobayashi, H., Peng, Z., Zhu, H., Jin, Z., Song, J., *Liu, W., *Li, R., 2022. Boosting electrocatalytic hydrogen evolution with anodic oxidative upgrading for formaldehyde over trimetallic carbides. ACS Sustainable Chemsitry & Engineering. 10, 21, 7108-7116. doi:10.1021/acssuschemeng.2c01229

47. Hu, X., Luo, Y., Wu, X., Niu, J., Tan, M., *Su, Z., *Liu, W., 2022. Heteroatom-doped microporous carbon nanosheets derived from pentaerythritol-melamine for supercapacitors and CO2 capture. Mateiarls Today Energy. 27, 101010. doi:10.1016/j.mtener.2022.101010

46. Li, D., Xu, R., Wong, R.J., Zhu, X., Tian, D., Jiang, L., Guo, Q., Bai, H., Huang, L., Liu, W., Wang, H., *Li, K., 2022. Supressing byproduct formation for high selective CO2 reduction over optimized Ni/TiO2. Journal of Energy Chemistry. 72, 465-478. doi:10.1016/j.jechem.2022.04.024

45. Kua, H.W., Tian, H., Goel, A., Xu, T., Liu, W., Yao, D., Ramachandran. S., Liu, X., Tong, Y. W., Dai, Y., Peng, Y., *Wang, C-W., 2022. Life cycle climate change mitigation through next-generation ubran waste recovery systems in high-density Asian cities: A Singapore case study. Resources, Conservation and Recycling. 101, 106265. doi:10.1016/j.apcatb.2022.121098

44. Yan, Y., Wong, R.J., Ma, Z., Donat, F., Xi, S., Saqline, S., Fan, W, Du, Y., Borgna, A., He, Q, Müller, C.R., Chen, W., Lapkin, A.A., *Liu, W., 2022. CO2 Hydrogenation to methanol on tungsten-doped Cu/CeO2 catalysts. Applied Catalysis B: Environmental. 306, 121098. doi:10.1016/j.apcatb.2022.121098

43. Xu, T., *Wang, X., Xiao, B., Zhao, H., *Liu, W., 2022. Optimisation of syngas production from a novel two-step chemical looping reforming process using Fe-dolomite as oxygen carriers. Fuel Processing Technology. 228, 107169. doi:10.1016/j.fuproc.2022.107169

42. Chang, R., Wu, X., *Chueng, O., *Liu, W., 2022. Synthetic solid oxide sorbents for CO2 capture: state-of-the-art and future perspectives. Journal of Materials Chemistry A. 10, 1682. doi:10.1039/D1TA07697C

41. Paul, R., Shit, S.C., Singh, A., Wong, R.J., Dao, D.Q., Joseph, B., *Liu, W., *Bhattacharya, S., *Mondal, J., 2022. Organogel assisted porous organic polymer embedding Cu nanoparticles for selective control semi hydrogenation of aklynes. Nanoscale. 14, 1505. doi:10.1039/D1NR07255B

40. Hu, X., Luo, Y., *Liu, W., Sun, Z., 2022. Synergistic interaction between inorganic layered materials and intumescent fire retardants for advanced fire protection. Carbon. 187, 290. doi:10.1016/j.carbon.2021.11.025

39. Gao, X., Ding, Y., Peng, L., Yang. D., Wan, X., Zhou, C., Liu, W., *Dai, Y., Yang, Y., 2022. On the effect of zeolite acid property and reaction pathway in Pd-catalyzed hydrogenation of furfural to cyclopentanone. Fuel. 314, 123074. doi:10.1016/j.fuel.2021.123074

2021

38. Qian, K., Yan, Y., Xi, S., Wei, T., Dai, Y., Yan, X., Kobayashi, H., Wang, S., *Liu, W., *Li, R., 2021. Elucidating the strain-vacancy-activity relationship on structurally deformed Co@CoO nanosheets for aqueous phase reforming of formaldehyde. Small. 17. 2012970. doi:10.1002/smll.202102970

37. Gai, C., Wang, X., Liu, J., *Liu, Z., *Ok, Y.S., Liu, W., Yip, A.C.K, 2021. Ni/hydrochar nanostructures derived from biomass as catalysts for H2 production through aqueous-phase reforming of methanol. ACS Applied Nano Materials. 4. 8958. doi:10.1021/acsanm.1c01537

36. Xu, T., Wang, X., Xiao, B., *Liu, W., 2021. Single-step production of hydrogen-rich syngas from toluene using multifunctional Ni-dolomite catalysts. Chemical Engineering Journal. 425 131522. doi:10.1016/j.cej.2021.131522

35. Hu, Y., Wu, J., Xu, W., Zhang, L., Xia, X., *Huang, C., Zhu, Y., Tian, M., Su, Y., Li, L., Hou, B., *Liu, W., *Wang, X., 2021. Intensified solar thermochemical CO2 splitting over iron-based redox materials via perovskite-mediated dealloying-exsolution cycles. Chinese Journal of Catalysis. 42. 2049-2058. doi:10.1016/S1872-2067(21)63857-3

34. *Liu, W., 2021. Controlling lattice oxygen acivity of oxygen carrier materials by design: a review and perspective. Reaction Chemsitry and Engineering. 6, 1527-1537. doi:10.1039/D1RE00209K

33. Saqline, S., Chua, Z.Y., *Liu, W., 2021. Coupling chemical looping combustion of solid fuels with advanced steam cycles for CO2 capture: a process modelling study. Energy Conversion and Management. 224, 114455. doi:10.1016/j.enconman.2021.114455

32. *Li, R., Liu, Z., Trinh Q.T., Miao, Z., Chen, S., Qian, K., Wong, R.J., Xi, S., Yan, Y., Borgna, A., Liang, S., Wei, T., Dai, Y., Wang, P., *Tang, Y., Yan, X., *Choksi, T.S., *Liu W., 2021. Strong metal-support interaction for 2D materials: application in noble metal/TiB2 heterointerfaces and their enhanced catalytic performance for formic acid dehydrogenation. Advanced Materials, . 2101536. doi:10.1002/adma.202101536

31. Zubir, M.A., Afandi, N., Manap, A., Hamid, A.A., Ayodele, B.V., Liu W., Hamid, M.K.A., 2021. CO2 capture for dry reforming of natural gas: performance and process modelling of calcium carbonate looping using acid based CaCO3 sorbent. Frontiers in Energy Research: Advanced Clean Fuel Technologies. 8. doi:10.3389/fenrg.2020.610521

2020

30. Tao, L., *Choksi, T.S., *Liu, W., *Pérez-Ramírez, J., 2020. Challenges and opportunities in synthesizing high volume chemicals from CO2 without direct H2 input. ChemSusChem, 13, 6066-6089. doi:10.1002/cssc.202001604

29. Lu, N., *Yan, X., Kobayashi, H., *Liu, W., Chen, S., Liang, S., Zhang, J., *Li, R., 2020. Oxygen-mediated water splitting on metal-free heterogeneous photocatalyst under visible light. Applied Catalysis B: Environmental, 273, 119378. doi:10.1016/j.enconman.2019.112226

28. Yu, L., Zhou, W., Luo, Z., Wang, H., *Liu, W., *Yin, K., 2020. Developing oyxgen carriers for chemical looping biomass processing: challenges and opportunities.  Advanced Sustainable Systems, 4, 2000099. doi:10.1002/adsu.202000099

27. *Wang, H., Dou, X., Veksha, A., Liu, W., Giannisc, A., Ge, L., Lim, T.T., *Lisak, G., 2020. Barium aluminate improved iron ore for the chemical looping combustion of syngas.  Applied Energy, 272, 115236. doi:10.1016/j.apenergy.2020.115236

26. Huang, J., Yan, Y., Saqline, S., *Liu, W., *Liu, B., 2020. High performance Ni catalyst prepared by freeze drying for efficient dry reforming of methane. Applied Catalysis B: Environmental, 275, 119109. doi:10.1016/j.apcatb.2020.119109

25. Paul, R., Sarkar., Chitra., Yan, Y., Trinh, Q.T., Rao, B. S., Pao, C-W., Lee, J-F., Liu, W., *Mondal, J., 2020. Porous-organic-polymer-triggered advancement of sustainable magnetic efficient catalyst for chemoselective hydrogenation of cinnamaldehyde. ChemCatChem, 12, 1-19. doi:10.1002/cctc.202000072

24. *He, C., Zhang, Z., Ge, C., Liu, W., Tang, T., Zhang, W., Zhuang, X., Qiu, R., 2020. Co-pyrolysis of sewage sludge and hydrochar with coals: Pyrolytic behaviors and kinetics analysis using TG-FTIR and a discrete distributed activation energy model. Energy Conversion and Managememnt, 297, 112226. doi:10.1016/j.enconman.2019.112226

2019

23. *He, C., Zhang, Z., Ge, C., Liu, W., Tang, Y., Zhuang, X., Qiu, R., 2019. Synergistic effect of hydrothermal co-carbonization of sewage sludge with fruit and agricultural wastes on hydrochar fuel quality and combustion behavior. Waste Management, 100, 171 - 181. doi:10.1016/j.wasman.2019.09.018

22. *Cheng, H., Yang, N., Liu, X., Yun, Q., Goh, M.H., Chen, B., Qi, X., Lu, Q., Chen, X., Liu, W., Gu, L., *Zhang. H., 2019. Aging amorphous/crystalline heterophase PdCu nanosheets for catalytic reactions. National Science Review, 6, 955-961. doi:10.1093/nsr/nwz078

21. Huang, J., *Liu, W., Hu, W., Metcalfe, I., *Yang, Y., *Liu, B., 2019. Phase interactions in Ni-Cu-Al2O3 mixed oxide oxygen carriers for chemical looping applications. Applied Energy, 236, 635–47. doi:10.1016/j.apenergy.2018.12.029