Add to ORKGelectrochemical energy storage devices. Abstract. High voltage electrophoretic deposition (HVEPD) has been used to obtain forests of aligned multi-walled carbon nanotubes (MWCNTs) on long strips of flexible, conductive substrates. Successful design and integration of a continuous HVEPD setup has enabled scalable fabrication of electrodes for electrochemical energy storage. The mechanism of continuous HVEPD has been investigated to ensure appropriate alignment. Well-aligned forests of MWCNTs were obtained using a conductive holding layer which helped reduce internal resistance and enhance the electrochemical performance of the electrodes
International audiencePotentiostatic pulsed deposition of poly(3-methylthiophene) (P3MT) is carried ...
Carbon nanomaterial especially CNT possesses remarkably significant achievements towards the develop...
The demand for, and consumption of, global energy is continually increasing across a world whose po...
Deposition of aligned forests of 1D nanoparticles (carbon nanotubes and MnO 2 nanorods) on conductiv...
Abstract: An IC-compatible process has been demonstrated to obtain vertically-aligned carbon nanotub...
The development of energy storage device utilizing carbon nanomaterials possesses remarkably signifi...
With the rising demands for small, lightweight, and long-lasting portable electronics, the need for ...
Metals including metal alloys have been widely used as current collector in energy storage devices. ...
In the domain of energy storage, electrochemical capacitors have numerous applications ranging from ...
A single‐step, room‐temperature, and scalable electrophoretic deposition process is reported to form...
This study aims to investigate multi-walled carbon nanotube and graphene composite thin films fabric...
The addition of nanoparticles as reinforcement to conventional fiber reinforced plastics shows great...
Carbon nanomaterial especially carbon nanotube (CNT) possesses remarkably significant achievements t...
Vertical aligned carbon nanotube (CNT) films are promising candidates for electrode surfaces in supe...
International audienceElectrophoretic deposition of macroporous assemblies of single-walled carbon n...
International audiencePotentiostatic pulsed deposition of poly(3-methylthiophene) (P3MT) is carried ...
Carbon nanomaterial especially CNT possesses remarkably significant achievements towards the develop...
The demand for, and consumption of, global energy is continually increasing across a world whose po...
Deposition of aligned forests of 1D nanoparticles (carbon nanotubes and MnO 2 nanorods) on conductiv...
Abstract: An IC-compatible process has been demonstrated to obtain vertically-aligned carbon nanotub...
The development of energy storage device utilizing carbon nanomaterials possesses remarkably signifi...
With the rising demands for small, lightweight, and long-lasting portable electronics, the need for ...
Metals including metal alloys have been widely used as current collector in energy storage devices. ...
In the domain of energy storage, electrochemical capacitors have numerous applications ranging from ...
A single‐step, room‐temperature, and scalable electrophoretic deposition process is reported to form...
This study aims to investigate multi-walled carbon nanotube and graphene composite thin films fabric...
The addition of nanoparticles as reinforcement to conventional fiber reinforced plastics shows great...
Carbon nanomaterial especially carbon nanotube (CNT) possesses remarkably significant achievements t...
Vertical aligned carbon nanotube (CNT) films are promising candidates for electrode surfaces in supe...
International audienceElectrophoretic deposition of macroporous assemblies of single-walled carbon n...
International audiencePotentiostatic pulsed deposition of poly(3-methylthiophene) (P3MT) is carried ...
Carbon nanomaterial especially CNT possesses remarkably significant achievements towards the develop...
The demand for, and consumption of, global energy is continually increasing across a world whose po...