product information:product information:
Name: Nitrogen and sulfur doping modification V2CTx 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 N-TisCx electrode capacity 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.
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 tips: Suzhou Beike nano products are only used for scientific research, not for human body,different batches of products have different specifications and performance |
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| Warm tips: Suzhou Beike nano products are only used for scientific research, not for human body,different batches of products have different specifications and performance.The website pictures are from the Internet. The pictures are for reference only. Please take the real object as the standard. In case of infringement, please contact us to delete them immediately. |
