product information:
Name: Nitrogen and sulfur doping modification Nb2CTx MXene
Functional group: -OH-F-O-Cl (customizable)
Size: 1-5um
Purity: 99%
Storage conditions: low temperature, dry and sealed must be stored in an inert atmosphere
Process: HF treatment or HCl+LiF treatment
N-Ti3C2 nanomaterials were prepared by a simple one-step hydrothermal method and applied to electrochemical capacitors. The experimental results show that: N-Ti3C2 has an accordion-like layered structure, and N successfully enters and is evenly distributed on the Ti3C2 matrix. The electrochemical test shows that the maximum specific capacity of N-TisCx electrode is 156F/g (5mV/s), and it has good rate performance and cycle stability. The excellent electrochemical performance of the N-Ti3C2 nanoelectrode comes from: The unique two-dimensional conductive network of the N-Ti3C2 matrix accelerates the intrusion and electron transfer of the electrolyte: the introduction of N expands the interplanar spacing and improves the intercalation pseudo of K+ Capacitance and provides additional pseudo-capacitance; N-Ti3C2‘s high conductivity and contact improve the transmission rate of electrons and provide more surface active sites; the synergy of the above factors effectively promotes the improvement of capacitance performance.
Warm tip: the products supplied by Beijing Beike Xincai Technology Co., Ltd. are only used for scientific research, not for human body |
Item ID |
CAS |
ID |
Pack |
Parameter |
Stock |
Make up |
Price |
BK2020041003-01 |
|
BK2020041003 |
1g |
多层Nb2C |
100 |
|
$1040 |
BK2020041003-01 |
|
BK2020041003 |
500mg |
多层Nb2C |
100 |
|
$700 |