Category Ranking
98%
Total Visits
921
Avg Visit Duration
2 minutes
Citations
20
Article Abstract
A novel and alternative explanation of the rotational barrier of ethane and several hexasubstituted derivatives, CX3CX3 (X = H, F, CH3, Cl, Br), is suggested based on the evaluation of the properties of the electron distribution. The forces exerted on the electron density of the topological atoms making up a molecule, the Ehrenfest forces, are analyzed and, with the help of the virial theorem, they are used to explain the experimental rotational barriers. According to this approach, the barrier is mainly a consequence of the decrease of the always attractive Ehrenfest forces (EFs) linking the two C atoms. In addition, the behavior of the EFs is related to a decrease of stability of the central C atoms, which is not compensated by the stabilization of the substituents. Also, during rotation from the staggered to the equilibrium conformation, the electron density at the C-C bond critical point and the electron delocalization between C atoms decrease and are accompanied by an increase of electron delocalization between the substituents. According to the analysis of the EF field lines and to the behavior of the integrated forces, the rotational barrier cannot be explained as a result of any repulsive forces acting on the electron density, although a possible interpretation of the quantum force that balances the EF in stationary states as a measure of traditional Pauli repulsions is also examined.
Download full-text PDF |
Source |
|---|---|
| http://dx.doi.org/10.1039/c5cp02774h | DOI Listing |
Publication Analysis
Top Keywords
Similar Publications
Breaking the silence: Revealing drivers and barriers to medical students' speaking up in medical error.
Med Educ
September 2025
University of Miami Gordon Center for Simulation and Innovation in Medical Education, Miami, Florida, USA.
Introduction: Speaking up about medical errors is a critical behaviour for medical students, as it plays a vital role in enhancing patient safety. Few studies have explored the drivers and barriers affecting their willingness to speak up in clinical training, particularly within hierarchical Asian cultures. The purpose of this study was to explore drivers and barriers shaping medical students' speaking up behaviours about medical errors to inform education, mentorship and patient safety practices.
View Article and Find Full Text PDFThe 'Second Shift' in Emergency Medicine: Strengths and Barriers of the Gendered Double Burden.
Emerg Med Australas
October 2025
Emergency Department, Austin Health, Melbourne, Australia.
The 'double burden' (or 'second shift') describes the workload of people in paid employment who are also responsible for unpaid domestic work. Globally, most of this work is shouldered by women and is often undervalued. For women working in Emergency Medicine, the double burden is likely to have impacts on career progression and leadership opportunities, as well as present challenges around competing demands of a rotating roster and domestic labour.
View Article and Find Full Text PDFPractitioner-teacher model implementation within a newly integrated academic health system: Lessons learned.
J Prof Nurs
September 2025
Rush University, United States.
Background: United States healthcare systems face an imminent need to recruit and retain direct care registered nurses (RNs), driven in part by high nurse turnover rates, which contribute to substantial economic and non-economic burdens. The pandemic exacerbated nurse turnover rates, while colleges of nursing simultaneously experienced a faculty shortage lending to fewer baccalaureate prepared RNs entering the workforce. Our large academic health system experienced similar challenges while the College of Nursing (CON) rapidly increased student enrollment to meet the need for additional RNs requiring an immediate and creative solution.
View Article and Find Full Text PDFLearning Barriers and Facilitators for Medical Students in General Surgical Rotations: Insights for Students and Teachers.
J Surg Educ
September 2025
University of Otago, Christchurch, New Zealand.
Objective: This study explored learning barriers and facilitators medical students encountered during a general surgical rotation in various surgical environments, to create a framework to enhance learning in these environments.
Design: This was a cross-sectional qualitative study using an open-ended questionnaire with separate versions for students and teachers. An inductive thematic analysis was conducted, followed by a theory-informed deductive analysis.
Barrier-Free Zinc Dimer Rotor on a Borozene-like BSi Stator: The Smallest Molecular Compass with Planar Pentacoordinate Boron.
J Phys Chem A
September 2025
Department of Chemistry, Xinzhou Normal University, 1 East Dunqi Street, Xinzhou 034000, Shanxi, People's Republic of China.
This work introduces the novel anionic cluster BSiZn as the smallest molecular "compass", featuring a unique two-layered architecture with a planar pentacoordinate boron (ppB) center. The cluster comprises a quasi-planar BSi stator─a silicon-based analogue of borozene with σ/π double aromaticity (6π + 10σ delocalized electrons)─and a Zn rotor dimer. High-level calculations (CCSD(T)//PBE0-D3) reveal an ultralow rotational barrier of 0.
View Article and Find Full Text PDF