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Chemo-enzymatic pathways toward pinene-based renewable materials . A. Stamm, M. Tengdelius, B. Schmidt, J. Engström, P. O. Syrén, L. Fogelström, E. Malmström
, Green Chem.
, 2019
, 21
, 2720
A simple strategy toward the substitution of styrene by sobrerol-based monomers in unsaturated polyester resins . Mafalda S. Lima, Cátia S. M. F. Costa, Jorge F. J. Coelho, Ana C. Fonseca, Arménio C. Serra
, Green Chem.
, 2018
, 20
, 4880
Determination of (±)-trans -sobrerol in pharmaceutical preparations by gas-liquid chromatography . J. L. Fábregas
, Analyst
, 1977
, 102
, 777
CLXIV.—The conversion of pinene into sobrerol . George Gerald Henderson, Wilfred James Stevenson Eastburn
, J. Chem. Soc., Trans.
, 1909
, 95
, 1465
XXXVI.—Contributions to the chemistry of the terpenes. Part IV. The oxidation of pinene with mercuric acetate . George Gerald Henderson, James Watson Agnew
, J. Chem. Soc., Trans.
, 1909
, 95
, 289
The chemistry of terpenes. Part XV. Some oxygenated derivatives of p -menthane . W. Cocker, K. J. Crowley, K. Srinivasan
, J. Chem. Soc., Perkin Trans. 1
, 1972
, 1971
Synthesis and polymerization of bio-based acrylates: a review . Clémence Veith, Florian Diot-Néant, Stephen A. Miller, Florent Allais
, Polym. Chem.
, 2020
, 11
, 7452
Development of rapid and selective epoxidation of α-pinene using single-step addition of H2 O2 in an organic solvent-free process . Mohamad Faiz Mukhtar Gunam Resul, Abdul Rehman, Ana María López Fernández, Valentine C. Eze, Adam P. Harvey
, RSC Adv.
, 2021
, 11
, 33027
848. Carveol and related substances . A. Blumann, W. R. Wood
, J. Chem. Soc.
, 1952
, 4420
Nitrate ion photochemistry at interfaces: a new mechanism for oxidation of α-pinene . Yong Yu, Michael J. Ezell, Alla Zelenyuk, Dan Imre, Liz Alexander, John Ortega, Jennie L. Thomas, Karun Gogna, Douglas J. Tobias, Barbara D'Anna, Chris W. Harmon, Stanley N. Johnson, Barbara J. Finlayson-Pitts
, Phys. Chem. Chem. Phys.
, 2008
, 10
, 3063