11 |
Terephthalic acid from waste PET: An efficient and reusable catalyst for xylose conversion into furfural Hronec M, Fulajtarova K Catalysis Today, 324, 27, 2019 |
12 |
The role of water soluble polymers in the phase separation of aqueous cholinium phenylalaninate solution as a green and biocompatible ionic liquid Zafarani-Moattar MT, Shekaari H, Jafari P Fluid Phase Equilibria, 485, 199, 2019 |
13 |
Comprehensive thermochemical utilization of biomass residues from furfural plants and ELW technology Wang Q, Liu YY, Liu SN, Wang W, Yu Q, Fu J, Liu SJ, Li J, Qi W Fuel, 252, 116, 2019 |
14 |
Improved single-step extraction performance of aqueous biphasic systems using novel symmetric ionic liquids for the decolorisation of toxic dye effluents Dimitrijevic A, Jocic A, Zec N, Tot A, Papovic S, Gadzuric S, Vranes M, Trtic-Petrovic T Journal of Industrial and Engineering Chemistry, 76, 500, 2019 |
15 |
Establishment of culture conditions for bio-transformation of R-(+)-limonene to limonene-1,2-diol by Colletotrichum nymphaeae CBMAI Sales A, Moreira RC, Pastore GM, Bicas JL Process Biochemistry, 78, 8, 2019 |
16 |
Production of furfural with high yields from corncob under extremely low water/solid ratios Wang Q, Qi W, Wang W, Zhang Y, Leksawasdi N, Zhuang XS, Yu Q, Yuan ZH Renewable Energy, 144, 139, 2019 |
17 |
Liquid-liquid extraction of phenolic compounds in systems based on acetonitrile plus water plus polyvinylpyrrolidone at 298.15 K Oliveira BS, D'Anzicourt CMS, Soares CMF, De Souza RL, Lima AS Separation and Purification Technology, 211, 117, 2019 |
18 |
Integrated extractive disruption of Gordonia terrae cells with direct recovery of carotenoids using alcohol/salt aqueous biphasic system Lee KW, How CW, Chen L, Chen PT, Lan JCW, Ng HS Separation and Purification Technology, 223, 107, 2019 |
19 |
Metal nanoparticles in ionic liquid-cosolvent biphasic systems as active catalysts for acetylene hydrochlorination Yang LF, Yang QW, Hu JY, Bao ZB, Su BG, Zhang ZG, Ren QL, Xing HB AIChE Journal, 64(7), 2536, 2018 |
20 |
Catalytic way of transforming 2,3-dimethylphenol to para-quinone with the use of vanadium-containing heteropoly acids Rodikova YA, Zhizhina EG, Pai ZP Applied Catalysis A: General, 549, 216, 2018 |