Dynamics and Mechanisms of the Multiphoton Gated Photochromic Reaction of the Highly Fluorescent Diarylethene Derivatives Miyasaka Lab Kunishi Tomohiro.

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Dynamics and Mechanisms of the Multiphoton Gated Photochromic Reaction of the Highly Fluorescent Diarylethene Derivatives Miyasaka Lab Kunishi Tomohiro

Contents Introduction The definition of the Photochromism Application and Conditions required for the photochromic molicules in the application The highly fluorescent Diarylethene derivative Results & Discussion The dynamics of the excited state Summary The prospect for the future

Photochromism the reversible photoinduced isomerization reactions between two isomers UV light Vis. light Example (Diarylethene in solution) Introduction Open formClosed form 1

Application of Photochoromic Molecules Introduction Quick property change Absoption spectra Refractive indices Redox potential etc. Photo-electronic devices Photo-memories Photo-switches etc. Fluorescent dyes for super-resolution microscopy Application 2

Conditions required the Photochromic Systems toward the Actual Application(memories and switchable fluorescent dyes) Introduction Thermal stability of both isomers Low fatigue The colored state should keep its color while it is written in the memory The fluorescent emission should be kept when the molecule is in the ON state of the fluorescence 3 S1S1 h Colorless (OFF) state Colored (ON )state fluoresence The gated function with the light intensity by using multiphoton absorption process But nondestructive performance is in conflict with the non-destructive performance for the switchable molecular systems. Rapid response High sensitivity Non-destructive performance

Diarylethene derivative (highly fluorescent) Open formClosed form Absorption spectra Open form in 1,4-dioxane (Black dashed line) Closed form in 1,4-dioxane (black solid line) Fluorescence spectra Closed form under irradiation with 532 nm light (red line) (M. Irie,et al, J. Am. Chem. Soc. 2011,13558.) Results & Discussion Φ=0.21 Φ< (non-fluorescent) Φ F ~0Φ F =0.78

Diarylethene derivative Fluorescence time profile Closed form under irradiation with 532 nm light fluorescence lifetime = 2.6 ns (M. Irie,et al, J. Am. Chem. Soc. 2011,13558.) (highly fluorescent) Open formClosed form Φ=0.21 Φ<10 -5 Results & Discussion 5 (non-fluorescent) Φ F ~0Φ F =0.78

Observation of Reaction Dynamics by Trasient Absorption Spectroscopy tt sample photo detector pump pulse (532 nm) monitor pulse (white light) Trasient absorption spectroscopy Open formClosed form Results & Discussion Drastic enhancement of reaction yield 6 ca.10 % ← Ground state of Closed form ← Excited state of Closed form

Excitation intensity dependence : conversion efficiency at 20 ns after the excitation with a 15- ps 532-nm laser pulse. Conversion Efficiency -  Abs510nm / Abs510nm Conversion efficiency is quadratically in proportion with the excitation intensity Two-photon process is responsible for the efficient bond breakage. Conversion efficiency: 変換効率 Results & Discussion slope~2 7

Two-Photon Absorption Processes SnSn S0S0 hv S1S1 S0S0 Simultaneous two-photon absorption process Stepwise two-photon absorption process Re-absorption of intermediate species The competition of absorption of light between the ground state molecule and the intermediate species.  Effective in the case where the number of total photon is large. I : Peak Intensity (photon / cm 2 sec) δ : 2-photon absorption cross section Ng : the number of the ground-state molecules Ne : the number of the excited state molecules Simultaneous two-photon absorption : 同時二光子吸収 Stepwise two-photon absorption : 逐次二光子吸収 Results & Discussion 8

Comparison of Picosecond and Femtosecond Lasers Laser Wave length Pulse Duration (fwhm) Peak Intensity (I) Total photon number Drastic Enhancement of the apparent reaction yield PS532 nm15 pssmalllarge ○ FS 540 ~ 610 nm 150 fslargesmall× Results & Discussion 9 Stepwise two-photon absorption process

Excitation intensity dependence : conversion efficiency at 20 ns after the excitation with a 15- ps 532-nm laser pulse. Conversion efficiency: 変換効率 Results & Discussion 90 %10 % ≈0 % hv closed formopen form SnSn S1S1 S0S0 10

Future prospect Results & Discussion Super-resolution fluorescence imaging Stefan W. Hell, et al, Science, 316 (2007)

Super-resolution microscopy (PALM) 12 Stochastically ON (one-photon absorption) hv (activation) Analysis of the center of the lighting spot Perfect OFF (Two-Photon Absorption) VIS (short pulse) repeatedly We can get the good image more efficiently.

Summary Picosecond pulsed excitation of the closed-isomer of the diarylethene derivatives led to the drastic enhancement of the cycloreversion reaction. (Φ<1.0×10 ⁻⁵ →1.0×10 ⁻ 1 ) This enhancement is attributable to the production of the higher excited state with a large reaction yield of the cycloreversion (ca.10%) attained via a successive two-photon process. Two-photon gated reaction in opening reaction can be utilized to the deterministic switching,which can be applied to the super-resolution fluorescence imaging. 13 Thank you for your attention