Deep oxidative desulfurization of fuels based on[C4mimCl]CoCl2 ionic liquid oxone solutions at room temperature

“…Interestingly, the cellulose solubility considerably increases in the molar ratio range from 0 to 1.00 with MIM content increase in [A 2 It has been reported that there existed strong ion pairs in neat ILs, 31,32 and IL could be partially disassociated into cation and anion by polar aprotic solvents, and the disassociated cation and anion more readily interacted with cellulose to promote the dissolution of cellulose. [33][34][35][36][37]39 [MOA]/MIM (R MIM ¼ 2)/cellulose (8%) solution were determined at room temperature and shown in Fig.…”

“…Cellulose is the most abundant biorenewable resource in nature with fascinating properties such as non-toxicity, carbon neutrality, biocompatibility, and so on. [1][2][3] Despite these merits, the further utilization of cellulose has actually been hindered because the extensive hydrogen bond and intersheet interactions in cellulose result in its difficult melting and dissolving for processing. [4][5][6][7] The commonly used strategies to overcome this problem are to develop efficient cellulose solvents in that the dissolved cellulose is more conveniently converted into valuable/ desired products.…”

Dissolution performance of cellulose in [A₂im][MOA]/MIM solvents

“…Interestingly, the cellulose solubility considerably increases in the molar ratio range from 0 to 1.00 with MIM content increase in [A 2 It has been reported that there existed strong ion pairs in neat ILs, 31,32 and IL could be partially disassociated into cation and anion by polar aprotic solvents, and the disassociated cation and anion more readily interacted with cellulose to promote the dissolution of cellulose. [33][34][35][36][37]39 [MOA]/MIM (R MIM ¼ 2)/cellulose (8%) solution were determined at room temperature and shown in Fig.…”

“…Cellulose is the most abundant biorenewable resource in nature with fascinating properties such as non-toxicity, carbon neutrality, biocompatibility, and so on. [1][2][3] Despite these merits, the further utilization of cellulose has actually been hindered because the extensive hydrogen bond and intersheet interactions in cellulose result in its difficult melting and dissolving for processing. [4][5][6][7] The commonly used strategies to overcome this problem are to develop efficient cellulose solvents in that the dissolved cellulose is more conveniently converted into valuable/ desired products.…”

Dissolution performance of cellulose in [A₂im][MOA]/MIM solvents

“…Managing SO x emissions from the combustion of petroleum-based fuels has become increasingly important for both the automotive and petrochemical industries (Xu et al, 2017, Raj et al, 2017. It is important to consider the utility of several toxic sulfurbased fuel compounds that contribute to the lubricity of many commercial liquid fuels (Hazrat et al, 2015;Lapuerta et al, 2016).…”

Synthesis of Morpholine-Based Ionic Liquids for Extractive Desulfurization of Diesel Fuel

“…Ionic liquids (ILs) are being explored as ''green'' substitutes for volatile organic solvents because of their low volatility (Dai et al 2017;Sun and Zhao 2011). Recently, a one-step desulfurization system, ionic liquid extraction combined with oxidative desulfurization (EODS), has been widely studied (Zhang et al 2017;Xu et al 2017;Moghadam et al 2017;Rafiee et al 2016). In this process, the sulfur compounds are firstly extracted by ILs and oxidized by aqueous hydrogen peroxide in the IL phase.…”

Synthesis of amphiphilic peroxophosphomolybdates for oxidative desulfurization of fuels in ionic liquids