Unusual low-energy near-infrared bands for ferrocenyl-naphthalimide donor-acceptor dyads with aromatic spacer groups: prediction by time-dependent DFT and observation by OTTLE spectroscopy

Tei Tagg; Henrik Grum Kjærgaard; Joseph R. Lane; C. John McAdam; Brian H. Robinson; Jim Simpson

doi:10.1021/om501315k

Unusual low-energy near-infrared bands for ferrocenyl-naphthalimide donor-acceptor dyads with aromatic spacer groups: prediction by time-dependent DFT and observation by OTTLE spectroscopy

Tei Tagg, Henrik Grum Kjærgaard, Joseph R. Lane, C. John McAdam, Brian H. Robinson, Jim Simpson^*

^*Corresponding author for this work

Department of Chemistry

10 Citations (Scopus)

Abstract

Time-dependent density functional theory (TDDFT) calculations for a series of donor-spacer-acceptor (D-S-A) molecules with phenyl (1), biphenyl (2), and anthryl (3) spacers interpolated between the ferrocenylalkene donor and -C≡C-4-naphthalimido acceptor components predicted the presence of weak, very low energy near-IR (NIR) transitions in the electronic spectra of the oxidized species Fc<sup>+</sup>-S-A. Subsequent optically transparent thin layer electrolysis (OTTLE) spectroscopy experiments in the spectral range 1500-3200 nm reveal that, in each case, very low energy NIR bands are indeed observed at approximately 2500 nm. The TDDFT calculations not only allow the prediction of these low energy bands but also, in concert with recently developed natural transition orbital (NTO) analysis, give detailed insights into the nature of the transitions involved. It is found that these bands around 2500 nm correspond to forbidden e<inf>1</inf>″ → e<inf>1</inf>″ transitions localized on the ferrocenium subunit with very low oscillator strengths. (Figure Presented.)

Original language	English
Journal	Organometallics
Volume	34
Issue number	11
Pages (from-to)	2662-2666
Number of pages	5
ISSN	0276-7333
DOIs	https://doi.org/10.1021/om501315k
Publication status	Published - 2015

Access to Document

10.1021/om501315k

Cite this

Unusual low-energy near-infrared bands for ferrocenyl-naphthalimide donor-acceptor dyads with aromatic spacer groups : prediction by time-dependent DFT and observation by OTTLE spectroscopy. / Tagg, Tei; Kjærgaard, Henrik Grum; Lane, Joseph R. et al.

In: Organometallics, Vol. 34, No. 11, 2015, p. 2662-2666.

Research output: Contribution to journal › Journal article › Research › peer-review

@article{b2d48508d0544a79bdc968f010181c6d,

title = "Unusual low-energy near-infrared bands for ferrocenyl-naphthalimide donor-acceptor dyads with aromatic spacer groups: prediction by time-dependent DFT and observation by OTTLE spectroscopy",

abstract = "Time-dependent density functional theory (TDDFT) calculations for a series of donor-spacer-acceptor (D-S-A) molecules with phenyl (1), biphenyl (2), and anthryl (3) spacers interpolated between the ferrocenylalkene donor and -C≡C-4-naphthalimido acceptor components predicted the presence of weak, very low energy near-IR (NIR) transitions in the electronic spectra of the oxidized species Fc+-S-A. Subsequent optically transparent thin layer electrolysis (OTTLE) spectroscopy experiments in the spectral range 1500-3200 nm reveal that, in each case, very low energy NIR bands are indeed observed at approximately 2500 nm. The TDDFT calculations not only allow the prediction of these low energy bands but also, in concert with recently developed natural transition orbital (NTO) analysis, give detailed insights into the nature of the transitions involved. It is found that these bands around 2500 nm correspond to forbidden e1″ → e1″ transitions localized on the ferrocenium subunit with very low oscillator strengths. (Figure Presented.)",

author = "Tei Tagg and Kj{\ae}rgaard, {Henrik Grum} and Lane, {Joseph R.} and McAdam, {C. John} and Robinson, {Brian H.} and Jim Simpson",

year = "2015",

doi = "10.1021/om501315k",

language = "English",

volume = "34",

pages = "2662--2666",

journal = "Organometallics",

issn = "0276-7333",

publisher = "American Chemical Society",

number = "11",

}

TY - JOUR

T1 - Unusual low-energy near-infrared bands for ferrocenyl-naphthalimide donor-acceptor dyads with aromatic spacer groups

T2 - prediction by time-dependent DFT and observation by OTTLE spectroscopy

AU - Tagg, Tei

AU - Kjærgaard, Henrik Grum

AU - Lane, Joseph R.

AU - McAdam, C. John

AU - Robinson, Brian H.

AU - Simpson, Jim

PY - 2015

Y1 - 2015

N2 - Time-dependent density functional theory (TDDFT) calculations for a series of donor-spacer-acceptor (D-S-A) molecules with phenyl (1), biphenyl (2), and anthryl (3) spacers interpolated between the ferrocenylalkene donor and -C≡C-4-naphthalimido acceptor components predicted the presence of weak, very low energy near-IR (NIR) transitions in the electronic spectra of the oxidized species Fc+-S-A. Subsequent optically transparent thin layer electrolysis (OTTLE) spectroscopy experiments in the spectral range 1500-3200 nm reveal that, in each case, very low energy NIR bands are indeed observed at approximately 2500 nm. The TDDFT calculations not only allow the prediction of these low energy bands but also, in concert with recently developed natural transition orbital (NTO) analysis, give detailed insights into the nature of the transitions involved. It is found that these bands around 2500 nm correspond to forbidden e1″ → e1″ transitions localized on the ferrocenium subunit with very low oscillator strengths. (Figure Presented.)

AB - Time-dependent density functional theory (TDDFT) calculations for a series of donor-spacer-acceptor (D-S-A) molecules with phenyl (1), biphenyl (2), and anthryl (3) spacers interpolated between the ferrocenylalkene donor and -C≡C-4-naphthalimido acceptor components predicted the presence of weak, very low energy near-IR (NIR) transitions in the electronic spectra of the oxidized species Fc+-S-A. Subsequent optically transparent thin layer electrolysis (OTTLE) spectroscopy experiments in the spectral range 1500-3200 nm reveal that, in each case, very low energy NIR bands are indeed observed at approximately 2500 nm. The TDDFT calculations not only allow the prediction of these low energy bands but also, in concert with recently developed natural transition orbital (NTO) analysis, give detailed insights into the nature of the transitions involved. It is found that these bands around 2500 nm correspond to forbidden e1″ → e1″ transitions localized on the ferrocenium subunit with very low oscillator strengths. (Figure Presented.)

U2 - 10.1021/om501315k

DO - 10.1021/om501315k

M3 - Journal article

AN - SCOPUS:84931281816

SN - 0276-7333

VL - 34

SP - 2662

EP - 2666

JO - Organometallics

JF - Organometallics

IS - 11

ER -

Unusual low-energy near-infrared bands for ferrocenyl-naphthalimide donor-acceptor dyads with aromatic spacer groups: prediction by time-dependent DFT and observation by OTTLE spectroscopy

Abstract

Access to Document

Fingerprint

Cite this