Eric A. Juban scite author profile

Femtosecond time-resolved absorption spectroscopy has been used to elucidate the excited-state dynamics associated with formation of the (2)E excited state in a Cr(III) transition metal complex. Cr(acac)(3) (where acac is the deprotonated monoanion of acetylacetone) exhibits monophasic decay kinetics with tau = 1.1 +/- 0.1 ps following excitation into the lowest-energy ligand-field absorption band; the time constant is found to be independent of both excitation and probe wavelength across the entire (4)A(2) --> (4)T(2) absorption envelope. The lack of a significant shift in the excited-state absorption spectrum combined with the observed spectral narrowing is consistent with an assignment of this process as vibrational cooling (k(vib)) in the (2)E state. The data on Cr(acac)(3) indicate that intersystem crossing associated with the (4)T(2) --> (2)E conversion occurs at a rate k(ISC) > 10(13) s(-)(1) and furthermore competes effectively with vibrational relaxation in the initially formed (4)T(2) state. Excitation into the higher energy (4)LMCT state (lambda(ex) = 336 nm) gives rise to biphasic kinetics with tau( 1) = 50 +/- 20 fs and tau( 2) = 1.2 +/- 0.2 ps. The slower component is again assigned to vibrational cooling in the (2)E state, whereas the subpicosecond process is attributed to conversion from the charge-transfer to the ligand-field manifold. In addition to detailing a process central to the photophysics of Cr(III), these results reinforce the notion that the conventional picture of excited-state dynamics in which k(vib) > k(IC) > k(ISC) does not generally apply when describing excited-state formation in transition metal complexes.

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Blue-Fluorescent Antibodies

Simeonov

Matsushita

Juban

et al. 2000

Science

108

111

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The forte of catalytic antibodies has resided in the control of the ground-state reaction coordinate. A principle and method are now described in which antibodies can direct the outcome of photophysical and photochemical events that take place on excited-state potential energy surfaces. The key component is a chemically reactive optical sensor that provides a direct report of the dynamic interplay between protein and ligand at the active site. To illustrate the concept, we used a trans-stilbene hapten to elicit a panel of monoclonal antibodies that displayed a range of fluorescent spectral behavior when bound to a trans-stilbene substrate. Several antibodies yielded a blue fluorescence indicative of an excited-state complex or "exciplex" between trans-stilbene and the antibody. The antibodies controlled the isomerization coordinate of trans-stilbene and dynamically coupled this manifold with an active-site residue. A step was taken toward the use of antibody-based photochemical sensors for diagnostic and clinical applications.

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15 T, 4.2 K field-swept 27Al NMR spectroscopy

Juban

Butler

1994

Chemical Physics Letters

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ChemInform Abstract: Synthesis of Size‐Selected, Surface‐Passivated InP Nanocrystals.

et al. 1996

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Eric A. Juban

Ultrafast dynamics of ligand-field excited states

Ultrafast Dynamics of ²E State Formation in Cr(acac)₃

Blue-Fluorescent Antibodies

15 T, 4.2 K field-swept 27Al NMR spectroscopy

ChemInform Abstract: Synthesis of Size‐Selected, Surface‐Passivated InP Nanocrystals.

Contact Info

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Resources

About

Eric A. Juban

Ultrafast dynamics of ligand-field excited states

Ultrafast Dynamics of 2E State Formation in Cr(acac)3

Blue-Fluorescent Antibodies

15 T, 4.2 K field-swept 27Al NMR spectroscopy

ChemInform Abstract: Synthesis of Size‐Selected, Surface‐Passivated InP Nanocrystals.

Contact Info

Product

Resources

About

Ultrafast Dynamics of ²E State Formation in Cr(acac)₃