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Hydrogen-free carbon monoxide production through decomposition of formic acid over a HPW/TiO2 catalyst Dong-Chang Kang, Seung Hee Pyen, Eun-Jeong Kim, Young Woo Kim, Young-Woong Suh, Dong-Pyo Kim, Chae-Ho Shin, Hyung-Ki Min Journal of Industrial and Engineering Chemistry, 123, 396, 2023 |
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Sensing formic acid with a water-based chitosan lanthanide luminescence film Xu Zheng, Xi Chen, Xudong Yu, Yifan Yang Journal of Industrial and Engineering Chemistry, 125, 144, 2023 |
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포름산 및 황산 촉매를 이용한 자일로스로부터 푸르푸랄 생산 이승민, 김준석 Korean Chemical Engineering Research, 61(4), 561, 2023 |
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A review of formic acid decomposition routes on transition metals for its potential use as a liquid H2 carrier Schlussel S, Kwon S Korean Journal of Chemical Engineering, 39(11), 2883, 2022 |
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Modeling the triple-path electro-oxidation of formic acid on platinum: Cyclic voltammetry and oscillations Calderon-Cardenas A, Hartl FW, Gallas JAC, Varela H Catalysis Today, 359, 90, 2021 |
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Enhancing activity, selectivity and stability of palladium catalysts in formic acid decomposition: Effect of support functionalization Barlocco I, Bellomi S, Delgado JJ, Chen XW, Prati L, Dimitratos N, Roldan A, Villa A Catalysis Today, 382, 61, 2021 |
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UV-A light-assisted gas-phase formic acid decomposition on photo-thermo Ru/TiO2 catalyst Ivanez J, Garcia-Munoz P, Ruppert AM, Keller N Catalysis Today, 380, 138, 2021 |
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Partial oxidation of methane with hydrogen peroxide over Fe-ZSM-5 catalyst Kim MS, Park KH, Cho SJ, Park ED Catalysis Today, 376, 113, 2021 |
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Elucidation of surface active sites by formic acid adsorbed IR studies in the hydrogenation of levulinic acid to valeric acid over rare earth metal doped titania supported nickel catalysts Peddakasu GB, Velisoju VK, Gutta N, Medak S, Dumpalapally M, Akula V Catalysis Today, 375, 112, 2021 |
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Laminar burning velocities of methane plus formic acid plus air flames: Experimental and modeling study Lavadera ML, Konnov AA Combustion and Flame, 225, 65, 2021 |