A theoretical framework to understand high electron mobilities in cable bacteria.
Publication
, Journal Article
Smith, AJ; Beratan, DN
Published in: Chemical science
March 2026
Cable bacteria contain electron-transport pathways that are among the longest found in living systems, reaching the centimeter scale. These bacteria have very high electrical conductivities, and the electron- transport mechanism is poorly understood. We performed theoretical analysis to assess possible transport mechanisms in cable bacteria. While earlier studies suggested that extended carrier delocalization or the formation of large polarons might explain the measured conductivities, we find that vibronically coupled multi-step hopping appears to dictate the biological electron transport mechanisms on these very large length scale.
Duke Scholars
Published In
Chemical science
DOI
EISSN
2041-6539
ISSN
2041-6520
Publication Date
March 2026
Volume
17
Issue
11
Start / End Page
5442 / 5450
Related Subject Headings
- 34 Chemical sciences
Citation
APA
Chicago
ICMJE
MLA
NLM
Smith, A. J., & Beratan, D. N. (2026). A theoretical framework to understand high electron mobilities in cable bacteria. Chemical Science, 17(11), 5442–5450. https://doi.org/10.1039/d5sc04393j
Smith, Andrew J., and David N. Beratan. “A theoretical framework to understand high electron mobilities in cable bacteria.” Chemical Science 17, no. 11 (March 2026): 5442–50. https://doi.org/10.1039/d5sc04393j.
Smith AJ, Beratan DN. A theoretical framework to understand high electron mobilities in cable bacteria. Chemical science. 2026 Mar;17(11):5442–50.
Smith, Andrew J., and David N. Beratan. “A theoretical framework to understand high electron mobilities in cable bacteria.” Chemical Science, vol. 17, no. 11, Mar. 2026, pp. 5442–50. Epmc, doi:10.1039/d5sc04393j.
Smith AJ, Beratan DN. A theoretical framework to understand high electron mobilities in cable bacteria. Chemical science. 2026 Mar;17(11):5442–5450.
Published In
Chemical science
DOI
EISSN
2041-6539
ISSN
2041-6520
Publication Date
March 2026
Volume
17
Issue
11
Start / End Page
5442 / 5450
Related Subject Headings
- 34 Chemical sciences