Advanced Search
Displaying assets from 1 to 30 out of 15
-
Description (a‐e) Cyclic Voltammetry of the supercapacitors fabricated using pristine and activated carbon [(a)‐ CC‐PC, (b)‐ CC‐AC, (c)‐ HTC‐PC, (d)‐HTC‐AC and (e) CV graph for 100 mV/s] and (f) specific...
Article Title: Jatropha Oil Cake Based Activated Carbon for Symmetric Supercapacitor Application: A Comparative Study on Conventional and Hydrothermal Carbonization Processes
Publication Title: ChemistrySelect -
Description (a‐e) GCD of the supercapacitors fabricated using pristine and activated carbon [(a)‐ CC‐PC, (b)‐ CC‐AC, (c)‐ HTC‐PC, (d)‐HTC‐AC and (e) GCD of the pristine for 1A/g] and (f) specific capacitance...
Article Title: Jatropha Oil Cake Based Activated Carbon for Symmetric Supercapacitor Application: A Comparative Study on Conventional and Hydrothermal Carbonization Processes
Publication Title: ChemistrySelect -
Description (a) Cycling performance and (b) Ragone Plot of the supercapacitors fabricated using CC‐PC, CC‐AC, HTC‐PC and HTC‐AC.
Article Title: Jatropha Oil Cake Based Activated Carbon for Symmetric Supercapacitor Application: A Comparative Study on Conventional and Hydrothermal Carbonization Processes
Publication Title: ChemistrySelect -
Description SEM images of (a & b) CC‐PC, (c & d) CC‐AC, (e & f) HTC‐PC, and (g & h) HTC‐AC at lower and higher magnification.
Article Title: Jatropha Oil Cake Based Activated Carbon for Symmetric Supercapacitor Application: A Comparative Study on Conventional and Hydrothermal Carbonization Processes
Publication Title: ChemistrySelect -
Description Raman spectra of the pristine and activated biocarbons obtained through conventional (a and b) and hydrothermal carbonization (c and d) processes.
Article Title: Jatropha Oil Cake Based Activated Carbon for Symmetric Supercapacitor Application: A Comparative Study on Conventional and Hydrothermal Carbonization Processes
Publication Title: ChemistrySelect -
Description BET analysis of the pristine and activated carbon derived through conventional and hydrothermal carbonization processes; (a) Nitrogen adsorption‐desorption isotherm and (b) specific surface area.
Article Title: Jatropha Oil Cake Based Activated Carbon for Symmetric Supercapacitor Application: A Comparative Study on Conventional and Hydrothermal Carbonization Processes
Publication Title: ChemistrySelect -
Description XRD patterns of the pristine and activated biocarbon material obtained through conventional (CC‐PC and CC‐AC) and hydrothermal carbonization (HTC‐PC and HTC‐AC) processes.
Article Title: Jatropha Oil Cake Based Activated Carbon for Symmetric Supercapacitor Application: A Comparative Study on Conventional and Hydrothermal Carbonization Processes
Publication Title: ChemistrySelect -
Description Schematic representation of the conversion of Jatropha oilcake into biocarbon materials employing conventional and hydrothermal carbonization processes for supercapacitor applications.
Article Title: Jatropha Oil Cake Based Activated Carbon for Symmetric Supercapacitor Application: A Comparative Study on Conventional and Hydrothermal Carbonization Processes
Publication Title: ChemistrySelect -
Description Characterization of oilcake by (a) FTIR (b) XRD (c) TGA
Article Title: Jatropha Oil Cake Based Activated Carbon for Symmetric Supercapacitor Application: A Comparative Study on Conventional and Hydrothermal Carbonization Processes
Publication Title: ChemistrySelect -
Description The carbon yield (a) of pristine and activated biocarbon obtained through conventional and hydrothermal carbonization processes and their respective CHNS analysis data (b).
Article Title: Jatropha Oil Cake Based Activated Carbon for Symmetric Supercapacitor Application: A Comparative Study on Conventional and Hydrothermal Carbonization Processes
Publication Title: ChemistrySelect -
Description Crystal parameters of pristine and activated biocarbons.
Article Title: Jatropha Oil Cake Based Activated Carbon for Symmetric Supercapacitor Application: A Comparative Study on Conventional and Hydrothermal Carbonization Processes
Publication Title: ChemistrySelect -
Description Nyquist impedance plot of the supercapacitors fabricated using CC‐PC, CC‐AC, HTC‐PC and HTC‐AC.
Article Title: Jatropha Oil Cake Based Activated Carbon for Symmetric Supercapacitor Application: A Comparative Study on Conventional and Hydrothermal Carbonization Processes
Publication Title: ChemistrySelect -
Description Surface area, pore diameter and pore volume of the pristine and activated biocarbons.
Article Title: Jatropha Oil Cake Based Activated Carbon for Symmetric Supercapacitor Application: A Comparative Study on Conventional and Hydrothermal Carbonization Processes
Publication Title: ChemistrySelect -
Description Bode impedance plot of supercapacitors fabricated using (a) CC‐PC, (b) CC‐AC, (c) HTC‐PC and (d) HTC‐AC.
Article Title: Jatropha Oil Cake Based Activated Carbon for Symmetric Supercapacitor Application: A Comparative Study on Conventional and Hydrothermal Carbonization Processes
Publication Title: ChemistrySelect -
Description Specific capacitance (through 2 electrode system) of the activated biocarbon materials obtained from various biomasses in literature along with the present work.
Article Title: Jatropha Oil Cake Based Activated Carbon for Symmetric Supercapacitor Application: A Comparative Study on Conventional and Hydrothermal Carbonization Processes
Publication Title: ChemistrySelect