화학공학소재연구정보센터
검색결과 : 669건
No. Article
41 Nickel-Tungsten Supported on Thin Carbon Coated SiO2 Nanosphere for Cellulose Conversion to Lower Polyols
Xiao ZQ, Zhang Q, Chen TT, Cai CG, Ge Q, Nie Y, Ji JB, Mao JW
Catalysis Letters, 148(12), 3757, 2018
42 Catalytic transfer hydrogenolysis of organosolv lignin using B-containing FeNi alloyed catalysts
Regmi YN, Mann JK, McBride JR, Tao JM, Barnes CE, Labbe N, Chmely SC
Catalysis Today, 302, 190, 2018
43 Efficient conversion of glycerol to 1, 2-propenadiol over ZnPd/ZnO-3Al catalyst: The significant influences of calcination temperature
Li XR, Wu QF, Zhang B, Zhang C, Lin WW, Cheng HY, Zhao FY
Catalysis Today, 302, 210, 2018
44 One-pot catalytic production of 1, 3-propanediol and gamma-valerolactone from glycerol and levulinic acid
Wu ZJ, Zhang M, Yao YR, Wang JT, Wang DH, Zhang MH, Li YF
Catalysis Today, 302, 217, 2018
45 Hydrogenolysis of glycerol with in-situ produced H-2 by aqueous-phase reforming of glycerol using Pt-modified Ir-ReOx/SiO2 catalyst
Liu SY, Tamura M, Shen Z, Zhang YL, Nakagawa Y, Tomishige K
Catalysis Today, 303, 106, 2018
46 Selective hydrogenolysis of tetrahydrofurfuryl alcohol on Pt/WO3/ZrO2 catalysts: Effect of WO3 loading amount on activity
Feng SX, Nagao A, Aihara T, Miura H, Shishido T
Catalysis Today, 303, 207, 2018
47 Production of monocyclic phenols by the liquid-phase hydrogenolysis of benzofuran and dibenzyl ether using in situ hydrogen production from methanol
Fujitsuka H, Tamura M, Tago T
Catalysis Today, 303, 213, 2018
48 Controllable production of guaiacols and phenols from lignin depolymerization using Pd/C catalyst cooperated with metal chloride
Shu RY, Xu Y, Ma LL, Zhang Q, Wang C, Chen Y
Chemical Engineering Journal, 338, 457, 2018
49 Hydrogenolysis of Tetrahydrofurfuryl Alcohol to 1,5-Pentanediol over a Nickel-Yttrium Oxide Catalyst Containing Ruthenium
Wijaya HW, Hara T, Ichikuni N, Shimazu S
Chemistry Letters, 47(1), 103, 2018
50 Metal particles supported on SiO2-OH nanosphere: New insight into interactions with metals for cellulose conversion to ethylene glycol
Xiao ZQ, Fan Y, Cheng YJ, Zhang Q, Ge Q, Sha RY, Ji JB, Mao JW
Fuel, 215, 406, 2018