Effects of Template and Molecular Nanostructure on the Performance of Organic–Inorganic Photomechanical Actuator Membranes

Dong, Xinning; Guo, Tianyi; Kitagawa, Daichi; Kobatake, Seiya; Palffy‐Muhoray, Peter; Bardeen, Christopher J.

doi:10.1002/adfm.201902396

Cited by 15 publications

(16 citation statements)

References 29 publications

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“…Similar to the AAO templates, the glass templates exhibit strong light scattering, but some fraction of the incident light is transmitted to the other side, suggesting that light penetration will not limit the photochemistry. In a previous study of AAO templates, we found considerable variations in the surface pore morphology, even when comparing the top and bottom of a single template . This top–bottom asymmetry also led to an asymmetric elastic modulus for these templates, complicating any analysis of how the host mechanical properties influence the performance of the composite.…”

Section: Resultsmentioning

confidence: 85%

“…Although the hybrid molecular crystal approach to photoactuation is promising, it also faces some difficulties. Porous AAO templates are fabricated by electrochemical etching, and we found considerable structural variability among different templates, as well as a nonuniform pore diameter across the template . They also have a limited range of pore diameters and thicknesses .…”

Section: Introductionmentioning

confidence: 90%

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Performance of Composite Glass–Diarylethene Crystal Photomechanical Actuator Membranes

Dong

Guo

Kitagawa

et al. 2022

ACS Appl. Mater. Interfaces

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Hybrid organic−inorganic composites based on organic photochromic crystals embedded in inorganic templates provide a new approach to photomechanical materials. Diarylethene (DAE) nanowire crystals grown in Al 2 O 3 membranes have exhibited reversible photoinduced bending and lifting [Dong, X., et al. Chem. Mater. 2019, 31, 1016−1022. In this paper, the hybrid approach is extended to porous SiO 2 membranes. Despite the different template material (SiO 2 instead of Al 2 O 3 ) and much larger channels (5 μm diameter instead of 0.2 μm diameter), similar photomechanical behavior is observed for this new class of organic−inorganic hybrid actuators. The ability to reuse individual glass templates across different DAE filling cycles allows us to show that the DAE filling step is crucial for determining the mechanical work done by the bending template. The bending curvature also depends quadratically on the template thickness, in good agreement with theory. The light-induced bending can be repeated for up to 150 cycles without loss of performance, suggesting good fatigue resistance. The results in this paper demonstrate that the hybrid organic−inorganic approach can be extended to other host materials and template geometries. They also suggest that optimizing the organic filling and template thickness could improve the work output by an order of magnitude.

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Section: Resultsmentioning

confidence: 85%

Section: Introductionmentioning

confidence: 90%

Performance of Composite Glass–Diarylethene Crystal Photomechanical Actuator Membranes

Dong

Guo

Kitagawa

et al. 2022

ACS Appl. Mater. Interfaces

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“…Subsequently, Bardeen et al further explored the effects that the nano-structural properties of the inorganic AAO template and organic DAE component had on the photomechanical response behavior. [257] Among the two commercially available AAO templates selected, the template with the lower average elastic modulus generated photomechanical work that was about an order of magnitude higher than the other. Adjusting the elastic modulus of the inorganic template was thus an effective way to improve the performance of the material.…”

Section: Changes In Morphologymentioning

confidence: 99%

Future‐Oriented Advanced Diarylethene Photoswitches: From Molecular Design to Spontaneous Assembly Systems

et al. 2022

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cycloreversion of DAE under light irradiation produces many exciting functional effects, such as changes in photophysical and photochemical properties, [12] changes in the shape or mechanical properties of the solid, [13] electrical conductivity, [7b,14] and the generation of reactive oxygen species (ROS). [15] This type of photochromic compound can be considered a stilbene derivative. At this time, the most widely known and systematically studied DAE derivative structure contains two aryl groups and a benzene ring (usually two identical or different thiophene units with low aromatic stabilization energy [16] ) and a five-membered ring of perfluorocyclopentene and cyclopentene units [17] where the ethene bridge is located, which significantly improve photochromism. [18] In essence, the DAE photoisomerization process is a reversible electrocyclic reaction of the central 6π-electron systems. [2] Under light irradiation, DAE can rapidly and reversibly transform between its open and closed forms, and that transformation is accompanied by a color change caused by a change in the π-conjugation distribution. [2] The important thing is that the colorless opened-and colored closed-ring isomers are both thermally stable; that is, cyclization and cycloreversion do not proceed spontaneously in the dark; they need to be driven by external light irradiation at specific wavelengths. [2,19] Compared with classic lightresponsive molecules such as azobenzene, [20] the light intensity required to drive the isomerization of DAE is relatively low. Moreover, even after multiple cycles, the photochromic performance does not show significant fatigue in either the solution or solid state. [2,18b,21] DAE research to this point can be roughly divided into three stages in chronological order: early exploration of DAE's molecular structure and theory, nearly two decades of purpose-oriented molecular structure modification research, and about ten years of research into practical applications of DAE in assembly systems. Research before about 2000 focused mainly on developing more abundant DAE-derivative structures and advancing the systematic understanding of DAE's physical and chemical properties and switching performance. To regulate its switching performance and give it new functionality, many strategies for modifying the ethene bridge and aryl groups of DAE have been proposed. [22] In the first two research stages, the mechanisms and structural modification of DAE isomerization were thoroughly and systematically explored, and countless important Diarylethene (DAE) photoswitch is a new and promising family of photochromic molecules and has shown superior performance as a smart trigger in stimulus-responsive materials. During the past few decades, the DAE family has achieved a leap from simple molecules to functional molecules and developed toward validity as a universal switching building block. In recent years, the introduction of DAE into an assembly system has been an attractive strategy that enables the photochromic behavior of the b...

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“…35 To create macroscopic actuator structures based on this photochromism, we recently developed a bottom-up approach that assembled crystalline diarylethene nanowires inside a porous ceramic host material. 36,37 This approach was successful in generating useful mechanical motion, e.g. tilting mirrors, but variations in the template quality and filling made the production of reproducible samples a challenge.…”

Section: Introductionmentioning

confidence: 99%

Patterning submicron photomechanical features into single diarylethene crystals using electron beam lithography

Kitagawa

Kobatake

et al. 2022

Nanoscale Horiz.

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Effects of Template and Molecular Nanostructure on the Performance of Organic–Inorganic Photomechanical Actuator Membranes

Cited by 15 publications

References 29 publications

Performance of Composite Glass–Diarylethene Crystal Photomechanical Actuator Membranes

Performance of Composite Glass–Diarylethene Crystal Photomechanical Actuator Membranes

Future‐Oriented Advanced Diarylethene Photoswitches: From Molecular Design to Spontaneous Assembly Systems

Patterning submicron photomechanical features into single diarylethene crystals using electron beam lithography

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