New terpenoids from the roots of Jatropha curcas

Yang, Yuanfeng; Liu, Jie‐Qing; Li, XuYang; Liu, EnQian; Li, Zhongrong; Qiu, Ming‐Hua

doi:10.1007/s11434-012-5655-4

Cited by 14 publications

(3 citation statements)

References 15 publications

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“…It is not only under the influence of wind, current and flow and other dynamics factors, but also influenced by its chemical property. In the oil spill accident, oil will spread, drift and keep constant transport process and evaporation, dissolution, emulsification, the change of oil film weathering [3] . There are also water oil film and the process of atmosphere heat change.…”

Section: Oil Movement Analysis and Range Lockingmentioning

confidence: 99%

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Emergency Treatment Research Based on Oil Monitoring System of Closed Water Ship Pollution

Shao

Yang

Zhu

2015

AMM

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With the development of economy, enclosed water area which is represented by lakes and reservoirs has become water environment sensitive areas in our country. The enclosed water pollution made by ships is increasingly serious. To strengthen inland river pollution prevention has become the urgent matter. Based on the ships motile pollution sources, we getting oil pollution information from the ship’s oil pollution monitoring and control system for oil pollution information, using Fay extension process of oil spill and Lagrange tracking method, analyze of oil pollution area and the change of position to lock oil range in advance and implementation pollution control as well as making an emergency response of ship’s pollution monitoring.

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Section: Oil Movement Analysis and Range Lockingmentioning

confidence: 99%

“…Engineering Decisions for Industrial Development (3)The oil boom can be crossed dislocation arrangement, layout, and having a certain angle with current [7] , so that the oil pollution concentration and the normal moving of the ship.…”

mentioning

confidence: 99%

Emergency Treatment Research Based on Oil Monitoring System of Closed Water Ship Pollution

Shao

Yang

Zhu

2015

AMM

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“…With these considerations in mind, we were drawn to investigate 6,8-cycloeudesmane sesquiterpenes, proposed to arise biosynthetically from a cationic cyclopropanation event (Figure D). − Bromide 3 is an archetypal example of marine origin; in the isolation report, Pietra and co-workers proposed a brominative transannular cyclization terminated by cationic cyclopropanation for establishing the carbon framework, leading to 3 after hydration of the exocyclic double bond . We chose to investigate a biomimetic total synthesis of bromide 3 and related natural products as a platform for investigating cationic cyclopropanation experimentally and computationally.…”

Section: Introductionmentioning

confidence: 99%

Biomimetic Cationic Cyclopropanation Enables an Efficient Chemoenzymatic Synthesis of 6,8-Cycloeudesmanes

et al. 2023

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Cationic cyclopropanation involves the γ-elimination at carbocations to form a new σ-C−C bond through proton loss. While exceedingly rare in bulk solution, it is recognized as one of the main biosynthetic cyclopropanation pathways. Despite the rich history of bioinspired synthetic chemistry, cationic cyclopropanation has not been appropriated for the synthetic toolbox, likely due to the preference of carbocations to undergo competing E1 β-elimination pathways. Here, we present an in-depth synthetic and computational study of cationic cyclopropanation, focusing on the 6,8-cycloeudesmanes as a platform for this investigation. We were able to apply biomimetic cationic cyclopropanation to the synthesis of several 6,8-cycloeudesmanes and non-natural analogues�in doing so, we showcase the power of this transformation in the preparation of complex cyclopropanes.

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