SemOpenAlex |

SemOpenAlex

Matches in SemOpenAlex for { <https://semopenalex.org/work/W4387186003> ?p ?o ?g. }

Showing items 1 to 100 of ±173 with 100 items per page.

W4387186003 endingPage "6477" @default.
W4387186003 startingPage "6477" @default.
W4387186003 abstract "In this work, we prepared a green, cheap material by chelating humic acid with ferric ions (HA-Fe) and used it as an anode material in LIBs for the first time. From the SEM, TEM, XPS, XRD, and nitrogen adsorption-desorption experimental results, it was found that the ferric ion can chelate with humic acid successfully under mild conditions and can increase the surface area of materials. Taking advantage of the chelation between the ferric ions and HA, the capacity of HA-Fe is 586 mAh·g-1 at 0.1 A·g-1 after 1000 cycles. Moreover, benefitting from the chelation effect, the activation degree of HA-Fe (about 8 times) is seriously improved compared with pure HA material (about 2 times) during the change-discharge process. The capacity retention ratio of HA-Fe is 55.63% when the current density increased from 0.05 A·g-1 to 1 A·g-1, which is higher than that of HA (32.55%) and Fe (24.85%). In the end, the storage mechanism of HA-Fe was investigated with ex-situ XPS measurements, and it was found that the C=O and C=C bonds are the activation sites for storage Li ions but have different redox voltages." @default.
W4387186003 created "2023-09-30" @default.
W4387186003 creator A5002718832 @default.
W4387186003 creator A5004914286 @default.
W4387186003 creator A5011196951 @default.
W4387186003 creator A5020457958 @default.
W4387186003 creator A5021691348 @default.
W4387186003 creator A5025324849 @default.
W4387186003 creator A5029380214 @default.
W4387186003 creator A5043509827 @default.
W4387186003 creator A5049341927 @default.
W4387186003 creator A5054063147 @default.
W4387186003 creator A5057048637 @default.
W4387186003 date "2023-09-29" @default.
W4387186003 modified "2023-10-17" @default.
W4387186003 title "FeIII Chelated with Humic Acid with Easy Synthesis Conditions and Good Performance as Anode Materials for Lithium-Ion Batteries" @default.
W4387186003 cites W1889146253 @default.
W4387186003 cites W1973408623 @default.
W4387186003 cites W1988364306 @default.
W4387186003 cites W1993810399 @default.
W4387186003 cites W2004432407 @default.
W4387186003 cites W2006318126 @default.
W4387186003 cites W2009632951 @default.
W4387186003 cites W2015701644 @default.
W4387186003 cites W2024610881 @default.
W4387186003 cites W2027819922 @default.
W4387186003 cites W2038217698 @default.
W4387186003 cites W2070258945 @default.
W4387186003 cites W2233423918 @default.
W4387186003 cites W2301871377 @default.
W4387186003 cites W2326501469 @default.
W4387186003 cites W2332129628 @default.
W4387186003 cites W2475134019 @default.
W4387186003 cites W2564142549 @default.
W4387186003 cites W2577357475 @default.
W4387186003 cites W2593332016 @default.
W4387186003 cites W2601360537 @default.
W4387186003 cites W2608516656 @default.
W4387186003 cites W2609675780 @default.
W4387186003 cites W2750899890 @default.
W4387186003 cites W2768768629 @default.
W4387186003 cites W2770065667 @default.
W4387186003 cites W2771506052 @default.
W4387186003 cites W2791495551 @default.
W4387186003 cites W2795408376 @default.
W4387186003 cites W2890546737 @default.
W4387186003 cites W2895970620 @default.
W4387186003 cites W2902713211 @default.
W4387186003 cites W2908542802 @default.
W4387186003 cites W2959494693 @default.
W4387186003 cites W2965033846 @default.
W4387186003 cites W2965070992 @default.
W4387186003 cites W2972270792 @default.
W4387186003 cites W2999837589 @default.
W4387186003 cites W3033565260 @default.
W4387186003 cites W3037135122 @default.
W4387186003 cites W3069596637 @default.
W4387186003 cites W3084562498 @default.
W4387186003 cites W3097968618 @default.
W4387186003 cites W3113014859 @default.
W4387186003 cites W3120356378 @default.
W4387186003 cites W3122592193 @default.
W4387186003 cites W3158387482 @default.
W4387186003 cites W3186865231 @default.
W4387186003 cites W3197561984 @default.
W4387186003 cites W3207354372 @default.
W4387186003 cites W3210592481 @default.
W4387186003 cites W3211688913 @default.
W4387186003 cites W3217558694 @default.
W4387186003 cites W4210402137 @default.
W4387186003 cites W4220711919 @default.
W4387186003 cites W4220799879 @default.
W4387186003 cites W4221066509 @default.
W4387186003 cites W4251149232 @default.
W4387186003 cites W4280637995 @default.
W4387186003 cites W4283156774 @default.
W4387186003 cites W4283313430 @default.
W4387186003 cites W4285099117 @default.
W4387186003 cites W4285499943 @default.
W4387186003 cites W4287833647 @default.
W4387186003 cites W4293722248 @default.
W4387186003 cites W4301373647 @default.
W4387186003 cites W4307573157 @default.
W4387186003 cites W4308620804 @default.
W4387186003 cites W4312093677 @default.
W4387186003 cites W4319655614 @default.
W4387186003 cites W4327601533 @default.
W4387186003 cites W4362717052 @default.
W4387186003 cites W4383911330 @default.
W4387186003 cites W830195160 @default.
W4387186003 doi "https://doi.org/10.3390/ma16196477" @default.
W4387186003 hasPubMedId "https://pubmed.ncbi.nlm.nih.gov/37834613" @default.
W4387186003 hasPublicationYear "2023" @default.
W4387186003 type Work @default.
W4387186003 citedByCount "0" @default.
W4387186003 crossrefType "journal-article" @default.
W4387186003 hasAuthorship W4387186003A5002718832 @default.
W4387186003 hasAuthorship W4387186003A5004914286 @default.