Direct Microtip Focused Electrohydrodynamic Jet Printing of Tailored Microlens Arrays on PDMS Nanofilm‐Modified Substrate

Microlens arrays (MLAs) have been widely employed as key components of various functional devices. However, the high‐efficiency fabrication of tailored MLAs with high numerical aperture (NA) is still a challenge. Herein, a one‐step maskless fabrication method of MLAs on polydimethylsiloxane (PDMS) n...

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Veröffentlicht in:	Advanced materials technologies 2021-11, Vol.6 (11), p.n/a
Hauptverfasser:	Su, Shijie, Liang, Junsheng, Li, Xiaojian, Xin, Wenwen, Chen, Li, Yin, Penghe, Wang, Zizhu, Ye, Xushi, Xiao, Jianping, Wang, Dazhi
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Schlagworte:	electrohydrodynamic jet printing microlens arrays PDMS nanofilm tailored
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container_title	Advanced materials technologies
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creator	Su, Shijie Liang, Junsheng Li, Xiaojian Xin, Wenwen Chen, Li Yin, Penghe Wang, Zizhu Ye, Xushi Xiao, Jianping Wang, Dazhi
description	Microlens arrays (MLAs) have been widely employed as key components of various functional devices. However, the high‐efficiency fabrication of tailored MLAs with high numerical aperture (NA) is still a challenge. Herein, a one‐step maskless fabrication method of MLAs on polydimethylsiloxane (PDMS) nanofilm modified substrate via microtip focused electrohydrodynamic jet (MFEJ) printing is developed. The MFEJ printing can effectively avoid nozzle blockage even with highly viscous UV‐curable polymer. The contact angle (CA) of polymer can be controlled on different hydrophobic substrates, which are modified by treatment with PDMS, and MLAs with different NA can be realized. The polymer CA increases from 19° to 73° after surface modification, and the NA of MLAs correspondingly increases from 0.18 to 0.53. The MLAs diameter and focusing properties can be easily tuned by combining the printing parameters with PDMS nanofilm modification. Various patterns of MLAs with high NA are obtained by MFEJ printing. The projection experiment indicates the uniformity and excellent optical performance of the MLAs. Moreover, the fabricated MLAs can generate magnified virtual images with a magnification up to 1.72‐fold. Results show that the MFEJ printing can fabricate functional and tailored MLAs with high NA on the PDMS nanofilm‐modified substrate. A one‐step maskless fabrication method of microlens arrays (MLAs) on polydimethylsiloxane (PDMS) nanofilm modified substrate via microtip focused electrohydrodynamic jet (MFEJ) printing is developed. The MFEJ printing can fabricate functional and tailored MLAs with high numerical aperture (NA) on the PDMS nanofilm‐modified substrate. The fabricated MLAs can generate magnified virtual images with a magnification up to 1.72‐fold.
doi_str_mv	10.1002/admt.202100449
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However, the high‐efficiency fabrication of tailored MLAs with high numerical aperture (NA) is still a challenge. Herein, a one‐step maskless fabrication method of MLAs on polydimethylsiloxane (PDMS) nanofilm modified substrate via microtip focused electrohydrodynamic jet (MFEJ) printing is developed. The MFEJ printing can effectively avoid nozzle blockage even with highly viscous UV‐curable polymer. The contact angle (CA) of polymer can be controlled on different hydrophobic substrates, which are modified by treatment with PDMS, and MLAs with different NA can be realized. The polymer CA increases from 19° to 73° after surface modification, and the NA of MLAs correspondingly increases from 0.18 to 0.53. The MLAs diameter and focusing properties can be easily tuned by combining the printing parameters with PDMS nanofilm modification. Various patterns of MLAs with high NA are obtained by MFEJ printing. The projection experiment indicates the uniformity and excellent optical performance of the MLAs. Moreover, the fabricated MLAs can generate magnified virtual images with a magnification up to 1.72‐fold. Results show that the MFEJ printing can fabricate functional and tailored MLAs with high NA on the PDMS nanofilm‐modified substrate. A one‐step maskless fabrication method of microlens arrays (MLAs) on polydimethylsiloxane (PDMS) nanofilm modified substrate via microtip focused electrohydrodynamic jet (MFEJ) printing is developed. The MFEJ printing can fabricate functional and tailored MLAs with high numerical aperture (NA) on the PDMS nanofilm‐modified substrate. 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However, the high‐efficiency fabrication of tailored MLAs with high numerical aperture (NA) is still a challenge. Herein, a one‐step maskless fabrication method of MLAs on polydimethylsiloxane (PDMS) nanofilm modified substrate via microtip focused electrohydrodynamic jet (MFEJ) printing is developed. The MFEJ printing can effectively avoid nozzle blockage even with highly viscous UV‐curable polymer. The contact angle (CA) of polymer can be controlled on different hydrophobic substrates, which are modified by treatment with PDMS, and MLAs with different NA can be realized. The polymer CA increases from 19° to 73° after surface modification, and the NA of MLAs correspondingly increases from 0.18 to 0.53. The MLAs diameter and focusing properties can be easily tuned by combining the printing parameters with PDMS nanofilm modification. Various patterns of MLAs with high NA are obtained by MFEJ printing. The projection experiment indicates the uniformity and excellent optical performance of the MLAs. Moreover, the fabricated MLAs can generate magnified virtual images with a magnification up to 1.72‐fold. Results show that the MFEJ printing can fabricate functional and tailored MLAs with high NA on the PDMS nanofilm‐modified substrate. A one‐step maskless fabrication method of microlens arrays (MLAs) on polydimethylsiloxane (PDMS) nanofilm modified substrate via microtip focused electrohydrodynamic jet (MFEJ) printing is developed. The MFEJ printing can fabricate functional and tailored MLAs with high numerical aperture (NA) on the PDMS nanofilm‐modified substrate. 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However, the high‐efficiency fabrication of tailored MLAs with high numerical aperture (NA) is still a challenge. Herein, a one‐step maskless fabrication method of MLAs on polydimethylsiloxane (PDMS) nanofilm modified substrate via microtip focused electrohydrodynamic jet (MFEJ) printing is developed. The MFEJ printing can effectively avoid nozzle blockage even with highly viscous UV‐curable polymer. The contact angle (CA) of polymer can be controlled on different hydrophobic substrates, which are modified by treatment with PDMS, and MLAs with different NA can be realized. The polymer CA increases from 19° to 73° after surface modification, and the NA of MLAs correspondingly increases from 0.18 to 0.53. The MLAs diameter and focusing properties can be easily tuned by combining the printing parameters with PDMS nanofilm modification. Various patterns of MLAs with high NA are obtained by MFEJ printing. The projection experiment indicates the uniformity and excellent optical performance of the MLAs. Moreover, the fabricated MLAs can generate magnified virtual images with a magnification up to 1.72‐fold. Results show that the MFEJ printing can fabricate functional and tailored MLAs with high NA on the PDMS nanofilm‐modified substrate. A one‐step maskless fabrication method of microlens arrays (MLAs) on polydimethylsiloxane (PDMS) nanofilm modified substrate via microtip focused electrohydrodynamic jet (MFEJ) printing is developed. The MFEJ printing can fabricate functional and tailored MLAs with high numerical aperture (NA) on the PDMS nanofilm‐modified substrate. The fabricated MLAs can generate magnified virtual images with a magnification up to 1.72‐fold.</abstract><doi>10.1002/admt.202100449</doi><tpages>11</tpages><orcidid>https://orcid.org/0000-0002-7246-8732</orcidid><orcidid>https://orcid.org/0000-0003-3805-3784</orcidid></addata></record>
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subjects	electrohydrodynamic jet printing microlens arrays PDMS nanofilm tailored
title	Direct Microtip Focused Electrohydrodynamic Jet Printing of Tailored Microlens Arrays on PDMS Nanofilm‐Modified Substrate
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