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A few days ago, Professor Kang Jianjian of Tianjin Polytechnic University led a scientific research team to successfully synthesize a new material with high-efficiency energy storage with a wide potential, which has a capacitance of 2-3 times that of the supercapacitors currently used, and has low cost and more convenient
assembly.
In addition to energy storage applications, the newly developed multi-valence oxide led by Kang Jianjian also shows excellent catalytic performance in the degradation of dye wastewater, and this technology constructs a three-dimensional porous composite structure, combined with the advantages of membrane separation, develops a reaction-separation integrated metal functional membrane reactor, which can be widely used in wastewater treatment, organic synthesis and other fields
.
Professor Kang Jianjian proposed a new idea of material design for multi-valence doped wide-potential collaborative energy storage, and cooperated with Professor Chen Mingwei of Tohoku University in Japan to successfully synthesize a new material
for high-efficiency energy storage with wide potential by using a new method developed in the early stage of metal polarization autooxidation to prepare core-shell metal/oxide electrodes.
Using this electrode material to assemble a supercapacitor, the overall energy density of the device will be 2-3 times
that of current commercial supercapacitors.
A few days ago, Professor Kang Jianjian of Tianjin Polytechnic University led a scientific research team to successfully synthesize a new material with high-efficiency energy storage with a wide potential, which has a capacitance of 2-3 times that of the supercapacitors currently used, and has low cost and more convenient
assembly.
In addition to energy storage applications, the newly developed multi-valence oxide led by Kang Jianjian also shows excellent catalytic performance in the degradation of dye wastewater, and this technology constructs a three-dimensional porous composite structure, combined with the advantages of membrane separation, develops a reaction-separation integrated metal functional membrane reactor, which can be widely used in wastewater treatment, organic synthesis and other fields
.
Professor Kang Jianjian proposed a new idea of material design for multi-valence doped wide-potential collaborative energy storage, and cooperated with Professor Chen Mingwei of Tohoku University in Japan to successfully synthesize a new material
for high-efficiency energy storage with wide potential by using a new method developed in the early stage of metal polarization autooxidation to prepare core-shell metal/oxide electrodes.
Using this electrode material to assemble a supercapacitor, the overall energy density of the device will be 2-3 times
that of current commercial supercapacitors.
