The electrochemical properties of boron-doped diamond powder (BDDP) were investigated as a step toward its application to aqueous electric double-layer capacitors (EDLCs).
Carbon materials have marvelous ability in energy storage and microelectronics as a result of the high specific surface area and electrical conductivity. However, the low
Understanding how to tune the properties of electroactive materials is a key parameter for their applications in energy storage systems. This work presents a comprehensive study in tailoring
Conductive diamond films appeared as promising materials with exceptional electrochemical properties that allowed significant advances in scientific and engineering
This review presents recent developments in the modification of boron-doped diamond electrodes (BDDEs) and their application in biosensing, electroanalysis,
Boron-doped diamond (BDD) has emerged as a promising material for advanced energy applications, particularly in solar cell and battery fields. Applications explored include
Abstract Boron-doped diamond powder (BDDP) and boron-doped nanodiamond (BDND) were developed with the aim of expanding the area of application of conductive
This review provides an overview of the fundamental properties and highlights recent progress and achievements in the growth of boron-doped (metal-like)
Diamond is a unique material that competes strongly with various semiconductor materials, thanks to its extraordinary physicochemical and electronic performance. The doping
Carbon materials have marvelous ability in energy storage and microelectronics as a result of the high specific surface area and electrical conductivity. However, the low stability and the low
Boron-doped diamond electrodes (BDDEs) introduced in 1992 have wide application in various branches of electrochemistry due to their unique characteristics,
For the utilization of graphene in various energy storage and conversion applications, it must be synthesized in bulk with reliable and controllable electrical properties.
Boron-doped diamond (BDD) is known as a promising electrode for supercapacitors, owing to its well-established preparation process, strong acid and alkali
The urgent need to develop efficient, durable, and cost-effective oxygen evolution reaction (OER) catalysts for energy conversion and storage has prompted extensive research.
Nanostructured diamond electrodes fabricated via substrate structuring and reactive ion etching demonstrate markedly enhanced specific surface area, specific
The boron-doped diamond (BDD) electrode is a physically, chemically, and electrochemically stable electrode material with a wide potential window in an aqueous
Its structure, surface groups, and electrical conductivity are also tunable, increasing its functional versatility. These make diamond and its related materials, such as its
The moment full-scale storage cost matches or becomes better than the cost of renewable energy generation (US$ ~ 0.025–0.05 /kWh for photovoltaic energy), we will have
Hence, to develop SCs with high performance, the employment of novel electrode materials and electrolytes are highly required. Conductive diamond, especially boron
Boron-doped diamond (BDD) films are an ideal choice for EC-SC due to their durability and exceptional electrochemical performance. In this study, nanostructured boron
Enhanced electrostatic potential with high energy and power density of a symmetric and asymmetric solid-state supercapacitor of boron and nitrogen co-doped reduced
Herein, a conductive boron-doped nanodiamond (BDND) particle is prepared as an electrode material for an aqueous electric double-layer capacitor with high power and
Article Open access Published: 19 January 2021 Interstitial boron-doped mesoporous semiconductor oxides for ultratransparent energy storage Jian Zhi, Min Zhou,
Electrodes of this carbon material exhibited a significantly higher energy density (energy density of 37.8 Wh/kg in 1 mol/L KOH) compared to those of most similar materials.
This work deals with the fabrication of nitrogen-incorporated boron-doped diamond (N-BDD) films, with the objective of producing an effective electrode for EC
The use of nanostructured boron-doped diamond (BDD) for (bio)electrochemical sensing, cell stimulation, and energy storage in particular has been increasingly inves- 2018 American
To construct a SC with improved cycling stability/energy density Mn-ion implanted (high-dose; 10 15 –10 17 ions cm −2) boron doped
This study provides valuable insights for optimizing PANI suspension preparation methods and selecting appropriate boron doping
1. Introduction Doping diamond with boron increases its conductivity. The conductivity is controlled by the doping level, and the diamond can range from an insulator to a
While boron-doped microcrystalline diamond (BDMD) electrodes are well-established, the transition to nanocrystalline diamond (BDND) anodes lacks systematic understanding of
The present study developed a new system of electrochemical water splitting using a boron doped diamond (BDD) electrode in the
This study underscores the pivotal role of boron-doped graphene in enhancing CQDs performance, presenting a promising composite for next-generation supercapacitors in
