SemOpenAlex |

SemOpenAlex

Matches in SemOpenAlex for { <https://semopenalex.org/work/W4200573639> ?p ?o ?g. }

Showing items 1 to 100 of ±139 with 100 items per page.

W4200573639 endingPage "120248" @default.
W4200573639 startingPage "120248" @default.
W4200573639 abstract "Removal of nitrogen-containing compounds (NCCs) from the fuel is essential for clean energy. An efficient adsorbent with ample active sites was obtained via grafting ethylenediaminetetraacetic acid (EDTA) onto a metal–organic framework (MOF808). The obtained MOF808_EDTA was firstly applied in adsorptive removal of organics like NCCs from liquid; showed remarkable performances in NCCs removal. For example, MOF808_EDTA showed the maximum adsorption capacity (Q0) of 667 and 625 mg/g, respectively, in indole (IND) and quinoline (QUIN) removal from fuel. These Q0 values for QUIN and IND adsorption are the highest and third position, respectively, compared with reported results. Additionally, the Q0 values for IND and QUIN are > 10 times those of activated carbon. Importantly, the Q0 value, in volume/weight (0.57 cm3/g), is very close to the total pore volume (0.59 cm3/g) of MOF808_EDTA, suggesting very effective utilization of pores of the MOF in the adsorption. The adsorption of IND and QUIN over MOF808_EDTA could be interpreted with H-bonding and acid-base interactions, respectively, based on properties of adsorbates and functional groups on MOF808_EDTA and MOF808_EDTA-Na (where hydrogen in EDTA was replaced with Na). The new adsorbent MOF808_EDTA, which is highly reusable, is being suggested as a prominent adsorbent to remove NCCs, especially basic QUIN, from fuel. This work will pave the way to modify MOFs to introduce ample functional groups that will be effective in adsorption." @default.
W4200573639 created "2021-12-31" @default.
W4200573639 creator A5011629355 @default.
W4200573639 creator A5023276622 @default.
W4200573639 creator A5068922436 @default.
W4200573639 date "2022-02-01" @default.
W4200573639 modified "2023-10-18" @default.
W4200573639 title "A remarkable adsorbent for denitrogenation of liquid fuel: Ethylenediaminetetraacetic acid-grafted metal–organic framework, MOF-808" @default.
W4200573639 cites W1211307375 @default.
W4200573639 cites W1800610964 @default.
W4200573639 cites W1915911263 @default.
W4200573639 cites W1980890495 @default.
W4200573639 cites W1986289620 @default.
W4200573639 cites W1994987995 @default.
W4200573639 cites W2005575798 @default.
W4200573639 cites W2007082361 @default.
W4200573639 cites W2021523927 @default.
W4200573639 cites W2033396917 @default.
W4200573639 cites W2047916257 @default.
W4200573639 cites W2055934567 @default.
W4200573639 cites W2085834360 @default.
W4200573639 cites W2115531949 @default.
W4200573639 cites W2127760232 @default.
W4200573639 cites W2209916717 @default.
W4200573639 cites W2320066783 @default.
W4200573639 cites W2335215506 @default.
W4200573639 cites W2335621806 @default.
W4200573639 cites W2336442310 @default.
W4200573639 cites W2463436373 @default.
W4200573639 cites W2544484598 @default.
W4200573639 cites W2554110423 @default.
W4200573639 cites W2567144889 @default.
W4200573639 cites W2593472765 @default.
W4200573639 cites W2604805870 @default.
W4200573639 cites W2618127528 @default.
W4200573639 cites W2620888760 @default.
W4200573639 cites W2623570678 @default.
W4200573639 cites W2626262033 @default.
W4200573639 cites W2750925881 @default.
W4200573639 cites W2766358868 @default.
W4200573639 cites W2766506816 @default.
W4200573639 cites W2768608837 @default.
W4200573639 cites W2782843009 @default.
W4200573639 cites W2790057497 @default.
W4200573639 cites W2790308498 @default.
W4200573639 cites W2791929375 @default.
W4200573639 cites W2792976223 @default.
W4200573639 cites W2793471128 @default.
W4200573639 cites W2800492000 @default.
W4200573639 cites W2801259358 @default.
W4200573639 cites W2883458640 @default.
W4200573639 cites W2885969730 @default.
W4200573639 cites W2886501709 @default.
W4200573639 cites W2887339939 @default.
W4200573639 cites W2890175437 @default.
W4200573639 cites W2894545047 @default.
W4200573639 cites W2896930808 @default.
W4200573639 cites W2899063946 @default.
W4200573639 cites W2901296824 @default.
W4200573639 cites W2914464335 @default.
W4200573639 cites W2929117504 @default.
W4200573639 cites W2937096332 @default.
W4200573639 cites W2948022195 @default.
W4200573639 cites W2951984211 @default.
W4200573639 cites W2954591269 @default.
W4200573639 cites W2961833115 @default.
W4200573639 cites W2964440511 @default.
W4200573639 cites W2983165192 @default.
W4200573639 cites W3005073129 @default.
W4200573639 cites W3025499459 @default.
W4200573639 cites W3033851954 @default.
W4200573639 cites W3043441437 @default.
W4200573639 cites W3043721883 @default.
W4200573639 cites W3045795072 @default.
W4200573639 cites W3049597583 @default.
W4200573639 cites W3092819166 @default.
W4200573639 cites W3095729935 @default.
W4200573639 cites W3125930879 @default.
W4200573639 cites W3128190719 @default.
W4200573639 cites W3131640532 @default.
W4200573639 cites W3134138498 @default.
W4200573639 cites W3154418389 @default.
W4200573639 cites W3162447707 @default.
W4200573639 cites W3185663163 @default.
W4200573639 cites W3191622310 @default.
W4200573639 cites W3192499986 @default.
W4200573639 cites W3198449211 @default.
W4200573639 cites W3204742330 @default.
W4200573639 doi "https://doi.org/10.1016/j.seppur.2021.120248" @default.
W4200573639 hasPublicationYear "2022" @default.
W4200573639 type Work @default.
W4200573639 citedByCount "13" @default.
W4200573639 countsByYear W42005736392022 @default.
W4200573639 countsByYear W42005736392023 @default.
W4200573639 crossrefType "journal-article" @default.
W4200573639 hasAuthorship W4200573639A5011629355 @default.
W4200573639 hasAuthorship W4200573639A5023276622 @default.
W4200573639 hasAuthorship W4200573639A5068922436 @default.