Hogar » The Carbon-Fluorine Bond: the Source of PFAS Stability

The Carbon-Fluorine Bond: the Source of PFAS Stability

1940

Per- and polyfluoroalkyl substances (PFAS) are characterized by a chain of carbon atoms bonded to fluorine atoms. The carbon-fluorine (C-F) bond is one of the strongest single bonds in organic chemistry, with a bond dissociation energy around 485 kJ/mol. This extreme strength makes PFAS highly resistant to chemical, thermal, and biological degradation, leading to their environmental persistence.

The exceptional stability of per- and polyfluoroalkyl substances (PFAS) is fundamentally rooted in the properties of the carbon-fluorine (C-F) bond. Fluorine is the most electronegative element, creating a highly polarized bond with carbon. This results in a short bond length (around 1.35 Å) and a very high bond dissociation energy, making it extremely difficult to break. In perfluoroalkyl substances, where all non-terminal carbons are fully saturated with fluorine atoms, this effect is amplified. The fluorine atoms create a helical sheath around the carbon backbone, sterically protecting it from chemical attack. This ‘fluorine shield’ also repels both water (hydrophobicity) and oils (oleophobicity), a rare combination that makes PFAS effective surfactants. The cumulative inductive effect of multiple fluorine atoms also strengthens adjacent C-C bonds within the chain, further contributing to the molecule’s overall inertness. This chemical robustness is why PFAS are dubbed “forever chemicals”; they do not readily break down under natural environmental conditions, leading to their widespread accumulation.

Reciclaje químico, Química, Ingeniería ambiental, Impacto ambiental, Orgánico, Sustancias perfluoroalquiladas y polifluoroalquiladas (PFAS), Contaminación, Prácticas de sostenibilidad, Contaminación del agua

UNESCO Nomenclature: 2506

– Organic chemistry

Tipo

Chemical Property

Disrupción

Fundacional

Utilización

Uso generalizado

Precursores

discovery of fluorine by henri moissan in 1886
development of quantum mechanics to explain chemical bonding (e.g., linus pauling’s work on electronegativity)
early synthesis of simple organofluorine compounds in the late 19th and early 20th centuries

Aplicaciones

non-stick coatings (teflon)
stain-resistant fabrics (scotchgard)
firefighting foams (AFFF)
water-repellent clothing
food packaging

Patentes:

Posibles ideas innovadoras

Membresía obligatoria de Professionals (100% free)

Debes ser miembro de Professionals (100% free) para acceder a este contenido.

Únete ahora

¿Ya eres miembro? Accede aquí

Related to: carbon-fluorine bond, pfas, perfluoroalkyl, stability, bond energy, organic chemistry, forever chemicals, electronegativity, persistence, organofluorine.

Deja una respuesta Cancelar la respuesta

DISPONIBLE PARA NUEVOS RETOS
Ingeniero Mecánico, Gerente de Proyectos, Ingeniería de Procesos o I+D

Disponible para un nuevo desafío a corto plazo.
Contáctame en LinkedIn
Integración de electrónica de metal y plástico, diseño a coste, GMP, ergonomía, dispositivos y consumibles de volumen medio a alto, fabricación eficiente, industrias reguladas, CE y FDA, CAD, Solidworks, cinturón negro Lean Sigma, ISO 13485 médico

Estamos buscando un nuevo patrocinador

¿Su empresa o institución se dedica a la técnica, la ciencia o la investigación?
> Envíanos un mensaje <

Recibe todos los artículos nuevos
Gratuito, sin spam, correo electrónico no distribuido ni revendido.