Articles citing this paper
The mechanism of the Cannizzaro reaction of Formaldehyde
RJL Martin
7(4) pp.335 - 347
26 articles found in Crossref database.
Mapping the Kinetic and Thermodynamic Landscape of Formaldehyde Oligomerization under Neutral Conditions
Kua Jeremy,
Avila Joseph E.,
Lee Christopher G., Smith William D.
The Journal of Physical Chemistry A. 2013 117(47). p.12658
Gelchromatographische Untersuchung niedermolekularer Harnstoff‐Formaldehyd‐Reaktionsprodukte
Braun Dietrich, Bayersdorf Friedrich
Die Angewandte Makromolekulare Chemie. 1979 81(1). p.147
Dual hydrogen production from electrocatalytic water reduction coupled with formaldehyde oxidation via a copper-silver electrocatalyst
Li Guodong,
Han Guanqun,
Wang Lu,
Cui Xiaoyu,
Moehring Nicole K.,
Kidambi Piran R.,
Jiang De-en, Sun Yujie
Nature Communications. 2023 14(1).
Polycondensation of kraft-lignin toward value-added biomaterials: carbon aerogels
Aufischer Gottfried,
Kamm Birgit, Paulik Christian
International Journal of Biobased Plastics. 2021 3(1). p.19
Resorcinol-formaldehyde reactions in dilute solution observed by carbon-13 NMR spectroscopy
Christiansen Alfred W.
Journal of Applied Polymer Science. 2000 75(14). p.1760
Improving Catalytic Performance and Stability of Copper-Zinc Based Catalyst on Aluminum Nitride for Formaldehyde Removal from Crude Trioxane
Zhou Ruoyu,
Lei Qian,
Deng Conger,
Liang Linlin, Chen Honglin
Catalysis Letters. 2024
Kinetic analysis of the disproportionation of aqueous glyoxal
Fratzke Alfred R., Reilly Peter J.
International Journal of Chemical Kinetics. 1986 18(7). p.757
Recent advances in catalytic transformation of biomass-derived 5-hydroxymethylfurfural into the innovative fuels and chemicals
Hu Lei,
Lin Lu,
Wu Zhen,
Zhou Shouyong, Liu Shijie
Renewable and Sustainable Energy Reviews. 2017 74 p.230
Insights into the mechanism of the formation of noble metal nanoparticles by in situ NMR spectroscopy
Mateo Jose Miguel,
Hoz Antonio de la,
Usón Laura,
Arruebo Manuel,
Sebastian Victor, Gomez M. Victoria
Nanoscale Advances. 2020 2(9). p.3954
Allgemeine Säure‐Basen‐Katalyse der Monomethylol‐Bildung aus Harnstoff und Formaldehyd in Wasser
Glutz B. R., Zollinger H.
Helvetica Chimica Acta. 1969 52(7). p.1976
Gravimetric analysis of the autocatalytic growth of copper microparticles in aqueous solution
Byun Jinuk,
Kim Kwang Hawn,
Kim Byung Keun,
Chang Ji Woong,
Cho Sung Ki, Kim Jae Jeong
RSC Advances. 2019 9(65). p.37895
Comparison of the Reaction Rates of the Alkali-Catalyzed Addition of Formaldehyde to Phenol and Selected Lignins
Gardner Douglas J., McGinnis Gary D.
Journal of Wood Chemistry and Technology. 1988 8(2). p.261
A robust adhesion between extruded polystyrene foam and mortar through different chemical linkages under ultraviolet-ozone irradiation
Jin Xiaodong,
Wu Xinyi,
Cui Suping,
Wang Wanfu,
Zhang Yao,
Sun Shibing, Sun Dawei
Construction and Building Materials. 2022 345 p.128414
Product distribution and reaction pathways for methylene chloride hydrolysis and oxidation under hydrothermal conditions
Marrone P.A.,
Gschwend P.M.,
Swallow K.C.,
Peters W.A., Tester J.W.
The Journal of Supercritical Fluids. 1998 12(3). p.239
The Messy Alkaline Formose Reaction and Its Link to Metabolism
Omran Arthur,
Menor-Salvan Cesar,
Springsteen Greg, Pasek Matthew
Life. 2020 10(8). p.125
Electrochemical determination of formaldehyde via reduced AuNPs@PPy composites modified electrode
Xi Huiting,
Chen Xingguang,
Cao Yao,
Xu Junjun,
Ye Cuizhu,
Deng Danwen,
Zhang Jinsheng, Huang Ganhui
Microchemical Journal. 2020 156 p.104846
Synthesis and Reaction Byproduct Characterization and Mechanistic Understanding of Hemiformal Based Hydrogen Sulfide Scavengers
Wylde J. J.,
Taylor G. N.,
Sorbie K. S., Samaniego W. N.
Energy & Fuels. 2020 34(4). p.4808
Reactions of hydroxymethyl and hydride complexes in water: synthesis, structure and reactivity of a hydroxymethyl–cobalt complex
Creutz Carol,
Chou Mei H.,
Fujita Etsuko, Szalda David J.
Coordination Chemistry Reviews. 2005 249(3-4). p.375
Methanol as a clean and efficient H-transfer reactant for carbonyl reduction: Scope, limitations, and reaction mechanism
Pasini Thomas,
Lolli Alice,
Albonetti Stefania,
Cavani Fabrizio, Mella Massimo
Journal of Catalysis. 2014 317 p.206
Herstellung von Acetalen in alkalischem Medium
Schmitz Ernst
Chemische Berichte. 1958 91(2). p.410
The electrochemical determination of formaldehyde in aqueous media using nickel modified electrodes
Trivedi Dhruv,
Crosse John,
Tanti Jonathon,
Cass Alise J., Toghill Kathryn E.
Sensors and Actuators B: Chemical. 2018 270 p.298
Electrocatalytic dual hydrogenation of organic substrates with a Faradaic efficiency approaching 200%
Han Guanqun,
Li Guodong, Sun Yujie
Nature Catalysis. 2023 6(3). p.224
Kinetics of pentaerythritol-production reactions
Peters M.S., Cupit C.R.
Chemical Engineering Science. 1959 10(1-2). p.57
Using a One-Electron Shuttle for the Multielectron Reduction of CO2 to Methanol: Kinetic, Mechanistic, and Structural Insights
Barton Cole Emily,
Lakkaraju Prasad S.,
Rampulla David M.,
Morris Amanda J.,
Abelev Esta, Bocarsly Andrew B.
Journal of the American Chemical Society. 2010 132(33). p.11539
On the Existence and Role of Formaldehyde During Aqueous Electrochemical Reduction of Carbon Monoxide to Methanol by Cobalt Phthalocyanine
Boutin Etienne,
Salamé Aude,
Merakeb Lydia,
Chatterjee Tamal, Robert Marc
Chemistry – A European Journal. 2022 28(27).
Catalytic Advances in the Production and Application of Biomass-Derived 2,5-Dihydroxymethylfuran
Hu Lei,
Xu Jiaxing,
Zhou Shouyong,
He Aiyong,
Tang Xing,
Lin Lu,
Xu Jiming, Zhao Yijiang
ACS Catalysis. 2018 8(4). p.2959
