Page last updated: 2024-08-21

cyanogen and hydrogen

cyanogen has been researched along with hydrogen in 37 studies

Research

Studies (37)

Timeframe	Studies, this research(%)	All Research%
pre-1990	1 (2.70)	18.7374
1990's	0 (0.00)	18.2507
2000's	0 (0.00)	29.6817
2010's	26 (70.27)	24.3611
2020's	10 (27.03)	2.80

Authors

Authors	Studies
DeFrees, DJ; Freeman, CG; Knight, JS; McEwan, MJ; McLean, AD; Petrie, SA	1
Antonietti, M; Li, H; Su, D; Wang, Y; Yao, J	1
Arrigo, R; Hävecker, M; Kubala, S; Lublow, M; Merschjann, C; Orthmann, S; Rusu, M; Schedel-Niedrig, T; Thomas, A; Tyborski, T; Yang, F	1
Chen, W; Liu, J; Wu, G; Zhang, Y	1
Chen, W; Liu, J; Lu, L; Wu, G; Zhang, Y	1
Chen, L; Dong, J; He, Y; Li, X; Sun, L; Wang, M	1
Ajayan, PM; Fang, Z; Gong, Y; Ma, L; Vajtai, R; Wang, X; Yang, S; Zhan, L; Zhang, J	1
Li, S; Li, Y; Lu, G; Peng, S; Xu, J	1
Bildirir, H; Blechert, S; Kailasam, K; Schmidt, J; Thomas, A; Wang, X; Zhang, G	1
Chen, W; Liu, J; Sui, Y; Tian, X; Zhang, Y	1
Hong, J; Wang, Y; Xu, R; Zhang, W	1
Chen, W; Wang, D; Zhang, Y	1
Parigger, CG; Surmick, DM; Swafford, LD; Witte, MJ; Woods, AC	1
Lin, Z; Wang, X	1
Chen, Y; Du, A; Han, Y; Jaroniec, M; Jiao, Y; Li, LH; Qiao, SZ; Zheng, Y; Zhu, Y	1
Antonietti, M; Huang, J; Liu, J; Zhou, H	1
Jiang, Q; Tang, XN; Wu, M; Yan, JM; Zhao, M	1
Chen, M; Jiang, D; Jiang, Z; Liu, D; Qian, K; Wei, W; Xie, J	1
Caputo, CA; Cavazza, C; Gross, MA; Lau, VW; Lotsch, BV; Reisner, E	1
Fischer, A; Kailasam, K; Schomäcker, R; Schröder, M; Schwarze, M; Thomas, A; Wang, X; Zhang, G; Zhang, J	1
Kou, L; Smith, SC; Tahini, HA; Tan, X	1
Chen, B; Huang, Z; Li, F; Yuan, G	1
Wang, B; Wang, X; Yang, C; Yin, L; Zhang, L	1
Chen, H; Fang, W; He, X; Huang, Z; Li, W; Tian, P; Zhao, L	1
Lin, Q; Lu, C; Qiu, Y; Wang, H; Yang, H; Yang, Y; Yin, L	1
An, X; Lan, H; Lan, M; Liu, H; Qu, J; Wang, F	1
Shi, L; Sun, H; Wang, S; Wu, H; Xu, X; Yao, Z; Yin, Y; Zhang, J	1
Black, K; Carta, M; Dobson, J; Harabajiu, C; Kanyanee, T; Lyall, C; Madrid, E; Marken, F; McKeown, NB; Reeksting, S; Torrente-Murciano, L; Zhao, Y	1
Guo, Y; Jiang, L; Ling, Y; Pan, J; Xie, Y; Zhao, J; Zhou, Y	1
He, Z; Jiao, Y; Li, Y; Li, Z; Qin, J; Wang, J	1
Liu, Y; Wen, J; Zhai, Y; Zhang, S	1
He, Z; Jiao, Y; Li, Y; Li, Z; Wang, J	1
Du, Y; Fu, Y; Guo, Y; Xie, H; Ye, C; Zhang, A; Zhang, Y; Zhu, M	1
Cao, X; Chen, L; Chen, X; Huang, H; Ji, X; Liu, J; Wang, R; Wang, Y; Wei, S; Yan, P	1
Fan, H; Hu, N; Jia, Y; Lei, L; Wang, W; Wu, X; Zhong, Q	1
Kozlova, EA; Vasilchenko, DB; Zhurenok, AV	1
Jiang, T; Liu, A; Liu, Z; Song, J; Wang, Y; Xian, H; Zheng, Y	1

Reviews

1 review(s) available for cyanogen and hydrogen

Article	Year
Comprehensive Review on g-C International journal of molecular sciences, 2022, Dec-25, Volume: 24, Issue:1 Topics: Hydrogen; Light; Nitriles	2022

Other Studies

36 other study(ies) available for cyanogen and hydrogen

Article	Year
Structural isomers of C2N+: a selected-ion flow tube study. Journal of the American Chemical Society, 1988, Volume: 110, Issue:16 Topics: Ammonia; Carbon; Carbon Dioxide; Hydrogen; Hydrogen Cyanide; Isomerism; Methane; Models, Molecular; Nitriles; Nitrogen; Nitrous Oxide; Oxygen; Temperature; Water	1988
Highly selective hydrogenation of phenol and derivatives over a Pd@carbon nitride catalyst in aqueous media. Journal of the American Chemical Society, 2011, Mar-02, Volume: 133, Issue:8 Topics: Catalysis; Cyclohexanones; Hydrogen; Hydrogenation; Molecular Structure; Nanoparticles; Nitriles; Palladium; Particle Size; Phenols; Porosity; Surface Properties; Temperature; Water	2011
Metal-free photocatalytic graphitic carbon nitride on p-type chalcopyrite as a composite photocathode for light-induced hydrogen evolution. ChemSusChem, 2012, Volume: 5, Issue:7 Topics: Catalysis; Copper; Electrodes; Graphite; Hydrogen; Light; Nitriles; Photochemical Processes; Temperature; Water	2012
Porous graphitic carbon nitride synthesized via direct polymerization of urea for efficient sunlight-driven photocatalytic hydrogen production. Nanoscale, 2012, Sep-07, Volume: 4, Issue:17 Topics: Catalysis; Cyanamide; Hydrogen; Light; Nitriles; Oxygen; Polymerization; Porosity; Solar Energy; Urea	2012
Self-regenerated solar-driven photocatalytic water-splitting by urea derived graphitic carbon nitride with platinum nanoparticles. Chemical communications (Cambridge, England), 2012, Sep-11, Volume: 48, Issue:70 Topics: Catalysis; Hydrogen; Metal Nanoparticles; Nitriles; Oxidation-Reduction; Peroxides; Photochemical Processes; Platinum; Semiconductors; Sunlight; Surface Properties; Urea; Water	2012
Simple nickel-based catalyst systems combined with graphitic carbon nitride for stable photocatalytic hydrogen production in water. ChemSusChem, 2012, Volume: 5, Issue:11 Topics: Catalysis; Graphite; Hydrogen; Nickel; Nitriles; Photochemical Processes; Water	2012
Exfoliated graphitic carbon nitride nanosheets as efficient catalysts for hydrogen evolution under visible light. Advanced materials (Deerfield Beach, Fla.), 2013, May-07, Volume: 25, Issue:17 Topics: Catalysis; Graphite; Hydrogen; Light; Materials Testing; Membranes, Artificial; Nanostructures; Nitriles; Particle Size	2013
Eosin Y-sensitized graphitic carbon nitride fabricated by heating urea for visible light photocatalytic hydrogen evolution: the effect of the pyrolysis temperature of urea. Physical chemistry chemical physics : PCCP, 2013, May-28, Volume: 15, Issue:20 Topics: Catalysis; Eosine Yellowish-(YS); Heating; Hydrogen; Light; Nitriles; Photochemical Processes; Temperature; Urea	2013
Room temperature synthesis of heptazine-based microporous polymer networks as photocatalysts for hydrogen evolution. Macromolecular rapid communications, 2013, Jun-25, Volume: 34, Issue:12 Topics: Catalysis; Heterocyclic Compounds, 3-Ring; Hydrogen; Molecular Structure; Nitriles; Photochemical Processes; Polymers; Porosity; Temperature; Triazines	2013
Dispersed conductive polymer nanoparticles on graphitic carbon nitride for enhanced solar-driven hydrogen evolution from pure water. Nanoscale, 2013, Oct-07, Volume: 5, Issue:19 Topics: Catalysis; Electron Transport; Electrons; Hydrogen; Nanoparticles; Nitriles; Polymers; Pyrroles; Sunlight; Water	2013
Noble-metal-free NiS/C3 N4 for efficient photocatalytic hydrogen evolution from water. ChemSusChem, 2013, Volume: 6, Issue:12 Topics: Catalysis; Hydrogen; Nickel; Nitriles; Photochemical Processes; Water	2013
A novel nickel-thiourea-triethylamine complex adsorbed on graphitic C3N4 for low-cost solar hydrogen production. Chemical communications (Cambridge, England), 2014, Feb-18, Volume: 50, Issue:14 Topics: Adsorption; Costs and Cost Analysis; Ethylamines; Graphite; Hydrogen; Nickel; Nitriles; Organometallic Compounds; Photochemical Processes; Sunlight; Thiourea	2014
Measurement and analysis of atomic hydrogen and diatomic molecular AlO, C2, CN, and TiO spectra following laser-induced optical breakdown. Journal of visualized experiments : JoVE, 2014, Feb-14, Issue:84 Topics: Aluminum Oxide; Carbon; Hydrogen; Lasers, Solid-State; Nitriles; Optics and Photonics; Plasma Gases; Spectrum Analysis; Titanium	2014
Ionic liquid promoted synthesis of conjugated carbon nitride photocatalysts from urea. ChemSusChem, 2014, Volume: 7, Issue:6 Topics: Catalysis; Hydrogen; Imidazoles; Ionic Liquids; Light; Nanostructures; Nitriles; Photochemical Processes; Polymerization; Surface Properties; Urea	2014
Hydrogen evolution by a metal-free electrocatalyst. Nature communications, 2014, Apr-28, Volume: 5 Topics: Catalysis; Electrochemistry; Graphite; Hydrogen; Kinetics; Microscopy, Electron, Transmission; Molecular Structure; Nitriles; Nitrogen; Photoelectron Spectroscopy; Water; X-Ray Absorption Spectroscopy	2014
Uniform graphitic carbon nitride nanorod for efficient photocatalytic hydrogen evolution and sustained photoenzymatic catalysis. ACS applied materials & interfaces, 2014, Jun-11, Volume: 6, Issue:11 Topics: Catalysis; Graphite; Hydrogen; Microscopy, Electron, Transmission; NAD; Nitriles; Photochemical Processes; Photoelectron Spectroscopy; Spectroscopy, Fourier Transform Infrared; X-Ray Diffraction	2014
Synthesis of potassium-modified graphitic carbon nitride with high photocatalytic activity for hydrogen evolution. ChemSusChem, 2014, Volume: 7, Issue:9 Topics: Catalysis; Chemistry Techniques, Synthetic; Graphite; Hydrogen; Nitriles; Photochemical Processes; Potassium Chloride	2014
Bamboo leaf-assisted formation of carbon/nitrogen co-doped anatase TiO2 modified with silver and graphitic carbon nitride: novel and green synthesis and cooperative photocatalytic activity. Dalton transactions (Cambridge, England : 2003), 2014, Sep-28, Volume: 43, Issue:36 Topics: Carbon; Catalysis; Free Radicals; Green Chemistry Technology; Hydrogen; Light; Nanoparticles; Nitriles; Nitrogen; Plant Leaves; Poaceae; Rhodamines; Silver; Thermodynamics; Titanium; Water	2014
Photocatalytic hydrogen production using polymeric carbon nitride with a hydrogenase and a bioinspired synthetic Ni catalyst. Angewandte Chemie (International ed. in English), 2014, Oct-20, Volume: 53, Issue:43 Topics: Catalysis; Hydrogen; Nickel; Nitriles; Photochemistry	2014
Mesoporous carbon nitride-tungsten oxide composites for enhanced photocatalytic hydrogen evolution. ChemSusChem, 2015, Apr-24, Volume: 8, Issue:8 Topics: Catalysis; Electrochemistry; Electrodes; Hydrogen; Nitriles; Oxides; Photochemical Processes; Porosity; Tungsten	2015
Charge Modulation in Graphitic Carbon Nitride as a Switchable Approach to High-Capacity Hydrogen Storage. ChemSusChem, 2015, Volume: 8, Issue:21 Topics: Adsorption; Electric Conductivity; Graphite; Hydrogen; Nanostructures; Nitriles; Static Electricity; Thermodynamics	2015
Hydrogen from Water over Openly-Structured Graphitic Carbon Nitride Polymer through Photocatalysis. ChemSusChem, 2016, Mar-08, Volume: 9, Issue:5 Topics: Catalysis; Graphite; Hydrogen; Microscopy, Atomic Force; Microscopy, Electron, Scanning; Nitriles; Photochemical Processes; Photoelectron Spectroscopy; Polymers; Spectrophotometry, Ultraviolet; Water	2016
Synthesis of Layered Carbonitrides from Biotic Molecules for Photoredox Transformations. Angewandte Chemie (International ed. in English), 2017, 06-01, Volume: 56, Issue:23 Topics: Catalysis; Hydrogen; Magnetic Resonance Spectroscopy; Microscopy, Electron, Scanning; Microscopy, Electron, Transmission; Nitriles; Oxidation-Reduction; Photochemical Processes; Purines; Pyrimidines; Semiconductors; Spectrophotometry, Ultraviolet; Spectroscopy, Fourier Transform Infrared; Urea; X-Ray Diffraction	2017
In suit inducing electron-donating and electron-withdrawing groups in carbon nitride by one-step NH Environment international, 2019, Volume: 126 Topics: Ammonium Chloride; Coloring Agents; Electrons; Hydrogen; Light; Nitriles; Oxidation-Reduction; Rhodamines; Triazines	2019
Biomimetic Design of Hollow Flower-Like g-C3N4@PDA Organic Framework Nanospheres for Realizing an Efficient Photoreactivity. Small (Weinheim an der Bergstrasse, Germany), 2019, Volume: 15, Issue:16 Topics: Biomimetics; Catalysis; Chemistry, Organic; Electrons; Graphite; Humans; Hydrogen; Indoles; MCF-7 Cells; Nanospheres; Nitriles; Nitrogen Compounds; Organic Chemicals; Photochemistry; Polymers; Reactive Oxygen Species	2019
Hydrogen-Bond-Mediated Self-Assembly of Carbon-Nitride-Based Photo-Fenton-like Membranes for Wastewater Treatment. Environmental science & technology, 2019, 06-18, Volume: 53, Issue:12 Topics: Carbon; Hydrogen; Iron; Nitriles; Wastewater	2019
Photocatalytic reforming of biomass for hydrogen production over ZnS nanoparticles modified carbon nitride nanosheets. Journal of colloid and interface science, 2019, Nov-01, Volume: 555 Topics: Biomass; Catalysis; Hydrogen; Nanoparticles; Nitriles; Particle Size; Photochemical Processes; Sulfides; Surface Properties; Zinc Compounds	2019
Indirect photo-electrochemical detection of carbohydrates with Pt@g-C Bioelectrochemistry (Amsterdam, Netherlands), 2020, Volume: 134 Topics: Catalysis; Electrochemistry; Hydrogen; Membranes, Artificial; Nitriles; Palladium; Photochemical Processes; Platinum; Polymers; Porosity; Sugars	2020
N, P, O co-doped carbon filling into carbon nitride microtubes to promote photocatalytic hydrogen production. The Science of the total environment, 2022, Feb-25, Volume: 809 Topics: Carbon; Catalysis; Hydrogen; Nitriles	2022
Nitrobenzene inarched carbon nitride nanotube drives efficient directional carriers separation for superior photocatalytic hydrogen production. Journal of colloid and interface science, 2022, Jun-15, Volume: 616 Topics: Catalysis; Hydrogen; Nanotubes, Carbon; Nitriles; Nitrobenzenes	2022
Formic acid assisted fabrication of Oxygen-doped Rod-like carbon nitride with improved photocatalytic hydrogen evolution. Journal of colloid and interface science, 2022, Oct-15, Volume: 624 Topics: Carbon; Formates; Hydrogen; Light; Nitriles; Oxygen	2022
Edge electron-rich carbon nitride via π-acceptor frame with high-efficient charge separation for photocatalytic hydrogen evolution and environmental remediation. Journal of colloid and interface science, 2022, Nov-15, Volume: 626 Topics: Carbon; Catalysis; Electrons; Environmental Restoration and Remediation; Hydrogen; Nitriles	2022
Green and controllable synthesis of kelp-like carbon nitride nanosheets via an ultrasound-mediated self-assembly strategy. Journal of colloid and interface science, 2022, Dec-15, Volume: 628, Issue:Pt A Topics: Graphite; Hydrogen; Kelp; Nitriles; Tetracycline	2022
Facile Chemical Vapor Modification Strategy to Construct Surface Cyano-Rich Polymer Carbon Nitrides for Highly Efficient Photocatalytic H ChemSusChem, 2022, Nov-22, Volume: 15, Issue:22 Topics: Gases; Hydrogen; Polymers	2022
Surface-assisted synthesis of biomass carbon-decorated polymer carbon nitride for efficient visible light photocatalytic hydrogen evolution. Journal of colloid and interface science, 2023, Mar-15, Volume: 634 Topics: Biomass; Carbon; Hydrogen; Light; Polymers; Saccharomyces cerevisiae	2023
Methyl-terminated graphite carbon nitride with regulatable local charge redistribution for ultra-high photocatalytic hydrogen production and antibiotic degradation. Chemosphere, 2023, Volume: 340 Topics: Anti-Bacterial Agents; Catalysis; Escherichia coli; Graphite; Hydrogen; Light	2023