These days, highly conducting boron-doped diamond (BDD) electrodes are widely used in a number of different electrochemical applications. 1–9 Two of the
Read MoreThe boron-doped diamond (BDD) electrode is a physically, chemically, and electrochemically stable electrode material with a wide potential window in an
Read MoreAbstract. Boron doped diamond (BDD) is an outstanding electrode material with unique electrocatalytic properties and excellent stability, relevant to electrochemical advanced oxidation processes and electroanalytical techniques. From an environmental sustainability viewpoint, BDD electrodes are comprised only of earth
Read MoreConductive diamonds, especially boron-doped diamonds, own unique advantages over other sp 2 nano-carbon materials. For example, diamond electrodes
Read MoreFurthermore, Boron-doped nanosheets appeal to great interest in the energy storage applications, as Dongdong Chi et al. have reported boron doped-graphene for high voltage aqueous supercapacitors
Read MoreBoron-doped diamond (BDD) holds promise as a FSSC electrode, owing to its well-established preparation process, strong acid and alkali corrosion resistance,
Read MoreThe doping of diamond by boron results in the formation of hole conductivity with an activation energy of 0.36 eV [1]. Boron-doped diamond (BDD) is
Read Moreenergies Article Catalytic Electrochemical Water Splitting Using Boron Doped Diamond (BDD) Electrodes as a Promising Energy Resource and Storage Solution Yousef Al-Abdallat 1,*, Inshad Jumah 2, Rami Jumah 3, Hanadi Ghanem 4 and Ahmad Telfah 5,6 1 Industrial Engineering Department, The University of Jordan (UoJ), "Faculty for Factory"
Read MoreDeveloping novel supercapacitor electrodes with high energy density and good cycle stability has aroused great interest. Herein, the vertically aligned CoNiO2/Co3O4 nanosheet arrays anchored on boron doped diamond (BDD) films are designed and fabricated by a simple one-step electrodeposition method. The CoNiO2/Co3O4/BDD
Read MorePerovskites are desirable for photoelectrochemical applications but are unstable in aqueous electrolytes. Here, the authors report a perovskite photoanode in aqueous electrolyte, preserving 95%
Read MoreFabricated energy storage device was used for practical applications to glow a red LED and to rotate the DC motor fan. Abstract Environment safe, cost-effective, reusable and portable asymmetric solid-state supercapacitor (ASSC) device, working at higher operating potential with high energy density was the challenging criteria for
Read MoreStable iridium-modified boron-doped diamond electrode for the application in electrochemical detection of arsenic (III) T Agustiany, M Khalil, Y Einaga, PK Jiwanti, TA Ivandini Materials Chemistry and Physics 244, 122723, 2020
Read MoreSpectroscopic studies identified the chemical state of the boron dopant incorporated into the lattice of semiconductor oxides. In electron energy loss spectrum (EELS; Fig. 2a), the peak at 193.8
Read MoreRaman spectrum for the low-doped-BDD / Nb electrodes (thin film of boron-doped diamond (BDD) coated on Nb substrate), the crystalline BDD peak is observed at 1337 cm − 1 . Energies 2020, 13
Read MoreIn December last year, it was reported that researchers from Tokyo had experimented with boron-doped nanodiamonds as electrodes in supercapacitors. These diamonds apparently have a wide potential window, meaning that a high-energy storage device could remain stable over a period of time.
Read MoreThis work deals with the fabrication of nitrogen-incorporated boron-doped diamond (N-BDD) films, with the objective of producing an effective electrode for EC supercapacitor applications. The morphology and microstructure of the N-BDD films are engineered by varying the substrate temperatures ( T s ) in an H 2 /CH 4 /B 2 H 6 /N 2
Read MoreThe BDND is obtained by depositing a boron-doped diamond (BDD) on a nanodiamond particle substrate with a primary particle size of 4.7 nm via microwave plasma-assisted chemical vapor
Read MoreLater Fujishima et al. investigated the photoelectrochemical response of semi-conducting boron-doped diamond (BDD) films 11 and further applied them as photoelectrodes. 12 The early 1990s saw the emergence of electrically conducting diamond as a new et al.
Read Moreenergies Article Catalytic Electrochemical Water Splitting Using Boron Doped Diamond (BDD) Electrodes as a Promising Energy Resource and Storage Solution Yousef Al-Abdallat 1,*, Inshad Jumah 2, Rami Jumah 3, Hanadi Ghanem 4 and Ahmad Telfah 5,6 1 Industrial Engineering Department, The University of Jordan (UoJ), "Faculty
Read MoreBoron-doped diamond (BDD) is known as a promising electrode for supercapacitors, owing to its well-established preparation process, A shape memory supercapacitor and its application in smart energy storage textiles J. Mater. Chem. A, 4 (2016), pp. 1290
Read MoreBoron-doped diamond (BDD) becomes a strong competitor in the energy storage field due to its unique properties, such as wide potential window and high electrochemical stability. While the limited specific capacitance of planar BDD electrode hinders its development in the field of supercapacitors [ 1, 2 ], it has been proven that
Read MoreThe rising concentration of carbon dioxide (CO2) as one of the greenhouse gases in the atmosphere is a major source of worry. Electrochemical reduction of CO2 is one of many ways to convert CO2 gas into usable compounds. An electrochemical technique was applied in this study to reduce CO2 using a boron-doped diamond
Read MoreThis review overviews recent reports on the electroanalytical applications of boron-doped diamond (BDD) electrodes. Since BDD electrodes have excellent features for electroanalysis, such as wide
Read MoreBoron-doped diamond electrodes are shown to be well suited for the reduction and re-oxidation of cytochrome c under conventional cyclic voltammetry conditions. 2. Experimental. 2.1. Reagents. Chemical reagents such as KCl, HNO 3, Ru (NH 3) 6 Cl 3 (Aldrich), K 3 Fe (CN) 6, K 2 PO 4, and KH 2 PO 4 (BDH) were obtained
Read MoreBoron-doped graphene/boron-doped diamond (BG/BDD) is synthesized by an electron-assisted hot-filament chemical vapor deposition (EA-HFCVD) method. Boron atoms are effectively doped into the graphene and diamond, and BG sheets are grown vertically on the BDD. The boron content of the BG affects the BG/BDD-electrode
Read MoreConductive diamonds, especially boron-doped diamonds, own unique advantages over other sp 2 nano-carbon materials. For example, diamond electrodes possess wide electrochemical potential window, low and stable background current, high mechanical and chemical stability, various surface terminations and rich surface
Read MoreMicroscaled supercapacitors show significant potential in various applications of energy storage due to their high power and long lifetime [1], [2]. BDD is applicable for supercapacitor electrode material owing to its high conductivity and superior anti-corrosion property, but suffers from low specific capacitance and unstable
Read MoreThus, as Dr Kondo has said, "the boron-doped nanodiamond electrodes are useful for aqueous supercapacitors, which function as high-energy storage devices suitable for high-speed charging and discharging.". Looks like diamonds could be driving our electronic and physical lives in the near future!
Read MoreHybrid supercapacitors (HSCs) can simultaneously achieve battery-level energy as well as capacitor-level power and cycle life in a single device. To construct such HSCs, porous boron-doped diamond (BDD) films fabricated by a template-free method via regrowth of diamond nanoparticles were employed as the electrodes and water-soluble
Read Moreproperties of boron-doped diamond (BDD). We study the effect of LIPSS on heavily doped BDD and investigate its application as electrodes for cell stimulation and energy
Read MoreIn recent years, conductive diamond electrodes for electrochemical applications have been a major focus of research and development. The impetus behind such endeavors could
Read MoreAs the photovoltaic (PV) industry continues to evolve, advancements in boron-doped diamond energy storage application have become instrumental in optimizing the utilization of renewable energy sources. From innovative battery technologies to smart energy management systems, these solutions are transforming the way we store and distribute solar-generated electricity.
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