Emerging hydrovoltaic technology based on carbon black and porous carbon materials: A mini review

“…In addition, it is noticed that the polarity of electrical output generated by the FLG is the same regardless of the direction of water flow, which is different from the typical output dominated by hydrovoltaic effects. [ 25 ]…”

“…In addition, it is noticed that the polarity of electrical output generated by the FLG is the same regardless of the direction of water flow, which is different from the typical output dominated by hydrovoltaic effects. [25] The recently reported works have pointed out that the interfacial electric field plays an important role in the tribovoltaic effect. [24,26,27] To further clarify the interface characteristics between the solid surface and liquid molecules, including bond formation, charge transfer, and induced dipole electric field, we have performed DFT calculations at an atomic scale.…”

Flexible Liquid‐Based Continuous Direct‐Current Tribovoltaic Generators Enable Self‐Powered Multi‐Modal Sensing

“…In addition, it is noticed that the polarity of electrical output generated by the FLG is the same regardless of the direction of water flow, which is different from the typical output dominated by hydrovoltaic effects. [ 25 ]…”

“…In addition, it is noticed that the polarity of electrical output generated by the FLG is the same regardless of the direction of water flow, which is different from the typical output dominated by hydrovoltaic effects. [25] The recently reported works have pointed out that the interfacial electric field plays an important role in the tribovoltaic effect. [24,26,27] To further clarify the interface characteristics between the solid surface and liquid molecules, including bond formation, charge transfer, and induced dipole electric field, we have performed DFT calculations at an atomic scale.…”

Flexible Liquid‐Based Continuous Direct‐Current Tribovoltaic Generators Enable Self‐Powered Multi‐Modal Sensing

“…EDLCs follow a mechanism based on non-faradic processes, i.e., electrical absorption of electrolytic ions at the electrode/electrolyte interface. Reversible multielectron redox faradic reaction mechanisms occur in pseudocapacitors by which the specific capacitance and energy density can be determined. − Electrochemical double-layer capacitors (EDLCs) have many desirable features such as increased power density, security, fast charge/discharge capacity, digital communication ability, applicability in electric vehicles, memory backup, uninterruptible power sources, etc. , In general, carbon nanostructured materials in electrochemical double layer capacitors are the most preferred electrodes because of their extremely elevated surface area and high electron mobility. Among the several carbon materials, because of the elevated surface area, large pore size, low electronic and ionic charge-transfer resistance, high chemical stability, and electrical conductivity, carbon nanotubes (CNTs) act as potential electrode materials in supercapacitors. − In particular, CNTs help recover the efficiency of the charge/discharge process by improving conductivity.…”

Direct Growth of Binder-Free CNTs on a Nickel Foam Substrate for Highly Efficient Symmetric Supercapacitors

“…The extensive application of fossil fuel-based energy and the rapid development of industrial technology have greatly facilitated people’s productivity and life, but the huge demand for energy consumption has brought negative impacts such as the energy crisis and global warming. 1 Many people, especially those living in developing countries and/or remote areas, suffer from energy shortages. 2 Combustion-based power is the most extensively used secondary energy in modern society.…”

Graphene oxide as a versatile platform for emerging hydrovoltaic technology