Here is the latest I can share based on available material up to now.
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Summary of topic: The Gauche effect refers to preferential gauche conformations in certain molecules, notably 1,2-dihaloethanes and related systems, driven by a combination of hyperconjugation and steric/Pauli repulsion effects. Recent computational work emphasizes that while hyperconjugation favors gauche in many cases, the observed trend across halogens is governed by Pauli repulsion between lone-pair-type orbitals on the substituents, which can override or modify the gauche preference depending on substituent size.[2][3]
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Recent highlights and sources:
- A 2021–2022 computational study revisits the Gauche effect in XCH2CH2X (X = F, Cl, Br, I) and argues that the causal mechanism is the interplay between hyperconjugation and Pauli repulsion, with the latter being decisive for the overall conformational preference across the series.[2]
- The classic description of the Gauche effect notes that gauche conformers can be energetically favored in some systems (e.g., X = F) due to hyperconjugative stabilization, while for heavier halogens the anti conformer often becomes favored, a pattern attributed to steric repulsion considerations in conjunction with hyperconjugation.[3]
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Related background and context:
- The term “gauche effect” is widely discussed in physical organic chemistry and related resources, with summaries indicating that conformational preferences can defy simple steric expectations due to electronic effects like hyperconjugation and orbital interactions.[9]
- For broader historical context and multiple angle discussions, review articles and encyclopedic entries discuss the origin and manifestations of the Gauche effect across different classes of compounds, including its appearance in substituted ethanes and ethenes.[10][3]
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Notable references:
- A recent open-access article on the Gauche effect in dihaloethanes, outlining the role of Pauli repulsion and hyperconjugation in determining conformational preference across X = F, Cl, Br, I.[2]
- The standard Wikipedia overview provides a general description of the Gauche effect and mentions the competing factors that can influence gauche versus anti conformations in related systems.[3]
If you’d like, I can summarize key figures (energies, percentages) from the latest computational results or help locate a specific recent paper and extract its main conclusions. I can also compile a quick comparison table of the proposed mechanisms for each halogen substituent (F, Cl, Br, I) with their dominant stabilizing interactions. Please tell me your preferred depth (high-level overview vs. detailed data).
Sources
In late October 2016 NHS England and NICE launched a 12-week consultation on changes to the arrangements for evaluating and funding drugs and other... Sanofi Genzyme is investigating an orally administered substrate reduction therapy in Gaucher disease type 3 as part of the 2-part LEAP clinical re... … CAMBRIDGE, Mass. – Genzyme, a Sanofi company, announced positive new data from the Phase 3 ENGAGE and ENCORE studies of eliglustat tartrate,... … At the recent EWGGD meeting in Paris, Shire...
www.gaucher.org.ukGauche effect Main article: alkane stereochemistry The term "gauche" refers conformational isomers (conformers) where two vicinal groups are separated by a 60°
www.chemeurope.comList of journal articles on the topic 'Gauche effect'. Scholarly publications with full text pdf download. Related research topic ideas.
www.grafiati.comWe have quantum chemically investigated the rotational isomerism of 1,2‐dihaloethanes XCH2CH2X (X = F, Cl, Br, I) at ZORA‐BP86‐D3(BJ)/QZ4P. Our Kohn‐Sham molecular orbital (KS‐MO) analyses reveal that hyperconjugative orbital interactions favor the ...
pmc.ncbi.nlm.nih.gov