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Journal articles on the topic 'Two-photon polymerization'

Author: Grafiati
Published: 4 June 2021
Last updated: 26 July 2025

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1

Unlu, Buse, Maria Isabel Álvarez-Castaño, Antoine Boniface, Ye Pu, and Christophe Moser. "Single-photon-assisted two-photon polymerization." Additive Manufacturing 94 (August 2024): 104455. http://dx.doi.org/10.1016/j.addma.2024.104455.

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2

Shusterman, Olga, Amir Berman, Yuval Golan, Baruch Horovitz, and Leila Zeiri. "Two-Photon Polymerization of Polydiacetylene." Journal of Physical Chemistry B 113, no. 5 (2009): 1273–76. http://dx.doi.org/10.1021/jp806546u.

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3

WRZYSZCZYNSKI, ANDRZEJ. "Two-photon initiators of polymerization." Polimery 55, no. 03 (2010): 167–71. http://dx.doi.org/10.14314/polimery.2010.167.

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4

Jia, Erse, Chen Xie, Na Xiao, Francois Courvoisier, and Minglie Hu. "Two-photon polymerization of femtosecond high-order Bessel beams with aberration correction." Chinese Optics Letters 21, no. 7 (2023): 071203. http://dx.doi.org/10.3788/col202321.071203.

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5

Narayan, Roger J., Anand Doraiswamy, Douglas B. Chrisey, and Boris N. Chichkov. "Medical prototyping using two photon polymerization." Materials Today 13, no. 12 (2010): 42–48. http://dx.doi.org/10.1016/s1369-7021(10)70223-6.

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6

Nguyen, Alexander K., and Roger J. Narayan. "Two-photon polymerization for biological applications." Materials Today 20, no. 6 (2017): 314–22. http://dx.doi.org/10.1016/j.mattod.2017.06.004.

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7

Lee, Yi-Hsiung, Yi-Jui Liu, Patrice L. Baldeck, and Chih-Lang Lin. "Fabrication of Periodic 3D Nanostructuration for Optical Surfaces by Holographic Two-Photon-Polymerization." International Journal of Information and Electronics Engineering 6, no. 3 (2016): 151–54. http://dx.doi.org/10.18178/ijiee.2016.6.3.614.

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8

Walia, Ritu, and Kamal Nain Chopra. "An Exhaustive Analysis of the Characterization of Photopolymer Material (SZ2080) by Two-Photon Polymerization, Waves Moving in a Periodic Potential, and Two-Photon Absorption." Materials Science Forum 1003 (July 2020): 165–72. http://dx.doi.org/10.4028/www.scientific.net/msf.1003.165.

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This paper presents an Exhaustive Analysis of the Characterization of Photopolymer Material (SZ2080) by Two-Photon Polymerization, and some of the modern concepts like Characterization of Photonic Crystals in Photopolymer SZ2080 by Two-Photon Polymerization, Waves Moving in a Periodic Potential, and Optical Quantum metamaterials. Two-photon polymerization for fabricating three-dimensional subdiffraction-limited structures has been discussed. Experimental and Computed Curves of line thickness (nm) vs feed rate (μm/s) have been technically analyzed. Waves moving in a Periodic Potential and Photo
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9

Li, Shanggeng, Xiaolin Liu, Shuai Zhang та ін. "D–π–A–π–D Initiators Based on Benzophenone Conjugate Extension for Two-Photon Polymerization Additive Manufacturing". Photonics 9, № 3 (2022): 183. http://dx.doi.org/10.3390/photonics9030183.

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A two-photon polymerization initiator is a kind of nonlinear optical material. With the demand for more efficient initiators in two-photon polymerization additive manufacturing, there are more and more related studies. In this paper, four conjugate-extended two-photon polymerization initiators with different alkane chain lengths were designed and synthesized, and single-photon, two-photon, and photodegradation experiments were carried out. Additive manufacturing experiments illustrated that the designed molecules can be used as two-photon initiators, and the writing speed can achieve 100,000 μ
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10

Tan, Bo, Krishnan Venkatakrishnan, and Alexander Makaronets. "Effects of pulsewidth on two-photon polymerization." Designed Monomers and Polymers 16, no. 2 (2012): 145–50. http://dx.doi.org/10.1080/15685551.2012.705502.

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11

Gittard, Shaun Davis. "Two-photon polymerization microstructuring in regenerative medicine." Frontiers in Bioscience E5, no. 2 (2013): 602–9. http://dx.doi.org/10.2741/e642.

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12

Niesler, Fabian, and Martin Hermatschweiler. "Two-Photon Polymerization - A Versatile Microfabrication Tool." Laser Technik Journal 12, no. 3 (2015): 44–47. http://dx.doi.org/10.1002/latj.201500019.

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13

Niesler, Fabian, and Martin Hermatschweiler. "Two-Photon Polymerization - A Versatile Microfabrication Tool." Optik & Photonik 11, no. 2 (2016): 54–57. http://dx.doi.org/10.1002/opph.201600018.

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14

Journal, Baghdad Science. "Three-Dimensional Microfabrication With Conjugated Polymers." Baghdad Science Journal 5, no. 1 (2008): 101–6. http://dx.doi.org/10.21123/bsj.5.1.101-106.

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In this paper we reported the microfabrication of three-dimensional structures using two-photon polymerization (2PP) in a mixture of MEH-PPV and an acrylic resin. Femtosecond laser operating at 800nm was employed for the two-photon polymerization processes. As a first step in this project we obtained the better composition in order to fabricate microstructers of MEH-PPV in the resin via two-photon polymerzation. Acknowledgement:This research is support by Mazur Group, Harvrad Universirt.
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15

Jamal, Raied K., C. R. Mendonca, P. Tayalia, and E. Mazur. "Three-Dimensional Microfabrication With Conjugated Polymers." Baghdad Science Journal 5, no. 1 (2008): 101–6. http://dx.doi.org/10.21123/bsj.2008.5.1.101-106.

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In this paper we reported the microfabrication of three-dimensional structures using two-photon polymerization (2PP) in a mixture of MEH-PPV and an acrylic resin. Femtosecond laser operating at 800nm was employed for the two-photon polymerization processes. As a first step in this project we obtained the better composition in order to fabricate microstructers of MEH-PPV in the resin via two-photon polymerzation. Acknowledgement:This research is support by Mazur Group, Harvrad Universirt.
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16

Lin, Jieqiong, Xian Jing, Mingming Lu, et al. "Two Photon Polymerization Micro/Nanofabrication of Suspended Nanorods in Organically Modified Ceramics." Nano 12, no. 03 (2017): 1750033. http://dx.doi.org/10.1142/s1793292017500333.

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Organically modified ceramics are used as photoresistors in the present work. The role of every ingredient played in two photon polymerization process is analyzed. A simple, compact and easy to locate experimental scheme is designed to fabricate nanorods in Ormocer. Based on the threshold theory of photon intensity, the lateral size dependences and vertical size dependences of nanorods on laser power and scanning speed are investigated, respectively. Through systematically changing processing parameters, a 136[Formula: see text]nm Ormocer suspended nanorod which is beyond diffraction limit res
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17

Yan, Yunxing, Xutang Tao, Guibao Xu, et al. "Synthesis, Characterization, and Non-Linear Optical Properties of Two New Symmetrical Two-Photon Photopolymerization Initiators." Australian Journal of Chemistry 58, no. 1 (2005): 29. http://dx.doi.org/10.1071/ch04111.

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Two new symmetrical two-photon free-radical photopolymerization initiators, 1,4-bis-{2-[4-(2-pyridin-4-ylvinyl)phenyl]vinyl}-2,5-bisdimethoxybenzene 6 and 1,4-bis-{2-[4-(2-pyridin-4-ylvinyl)phenyl]vinyl}-2,5-bisdodecyloxybenzene 7, were synthesized using an efficient Wittig and Pd-catalyzed Heck coupling methodology. One-photon fluorescence, one-photon fluorescence quantum yields, one-photon fluorescence lifetimes, and two-photon fluorescence have been investigated. Experimental results show that both compounds were good two-photon absorbing chromophores and effective two-photon photopolymeriz
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18

Bunea, Ada-Ioana, Nuria del Castillo Iniesta, Ariadni Droumpali, Alexandre Emmanuel Wetzel, Einstom Engay, and Rafael Taboryski. "Micro 3D Printing by Two-Photon Polymerization: Configurations and Parameters for the Nanoscribe System." Micro 1, no. 2 (2021): 164–80. http://dx.doi.org/10.3390/micro1020013.

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3D printing by two-photon polymerization enables the fabrication of microstructures with complex shapes and critical dimensions of a few hundreds of nanometers. On state-of-the art commercial two-photon polymerization systems, an immense 3D design freedom can be put into practice by direct laser writing using a precise fabrication technology, which makes this approach highly attractive for different applications on the microscale, such as microrobotics, micro-optics, or biosensing. However, navigating the different possible configurations and selecting the optimal parameters for the fabricatio
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19

Zhiganshina, E. R., M. V. Arsenyev, and S. A. Chesnokov. "Two-Photon Stereolithography—Optical Nanolithography." Высокомолекулярные соединения Б 65, no. 3 (2023): 163–88. http://dx.doi.org/10.31857/s2308113923700468.

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Free-radical photopolymerization has been widely used in additive technologies, in particular, stereolithography using single- and two-photon initiated polymerization. The single-photon stereolithography affords the objects with about 100 μm resolution. The two-photon stereolithography initiated with a femtosecond near-infrared laser can afford arbitrary 3D microstructures with ultrahigh resolution at micro- and nanoscale level (~100 nm). Herein each of the mentioned method and the mechanisms of single- and two-photon excitation are reviewed. The recent results on the components of the photopo
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20

Wang Rongrong, 王荣荣, 张维彩 Zhang Weicai, 金峰 Jin Feng, et al. "Fabrication of Polyaniline Microstructure via Two-Photon Polymerization." Chinese Journal of Lasers 48, no. 2 (2021): 0202006. http://dx.doi.org/10.3788/cjl202148.0202006.

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21

Gruber, Christian, Andreas Hirzer, Volker Schmidt, et al. "Imaging nanowire plasmon modes with two-photon polymerization." Applied Physics Letters 106, no. 8 (2015): 081101. http://dx.doi.org/10.1063/1.4913470.

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22

Wei, Peng, Ning Li, and Lishuang Feng. "Two-Photon Polymerization System With Diffractive Superresolution Element." IEEE Sensors Journal 11, no. 1 (2011): 194–98. http://dx.doi.org/10.1109/jsen.2010.2054077.

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23

Jiang, L. J., J. H. Campbell, Y. F. Lu, T. Bernat, and N. Petta. "Direct Writing Target Structures by Two-Photon Polymerization." Fusion Science and Technology 70, no. 2 (2016): 295–309. http://dx.doi.org/10.13182/fst15-222.

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24

Takahashi, Hidetomo, Satoshi Hasegawa, Akihiro Takita, and Yoshio Hayasaki. "Sparse-exposure technique in holographic two-photon polymerization." Optics Express 16, no. 21 (2008): 16592. http://dx.doi.org/10.1364/oe.16.016592.

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25

Carlotti, Marco, and Virgilio Mattoli. "Functional Materials for Two‐Photon Polymerization in Microfabrication." Small 15, no. 40 (2019): 1902687. http://dx.doi.org/10.1002/smll.201902687.

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26

Lin, Jieqiong, Peng Liu, Xian Jing, Mingming Lu, Kaixuan Wang, and Jie Sun. "Stochastic Multi-Molecular Modeling Method of Organic-Modified Ceramics in Two-Photon Induced Photopolymerization." Materials 12, no. 23 (2019): 3876. http://dx.doi.org/10.3390/ma12233876.

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Organic-modified ceramics (Ormocer) are an outstanding class of hybrid materials due to the fact of their various excellent properties, and they have been successfully used in two-photon polymerization microfabrication fields. A series of functional devices has been fabricated and widely used in aerospace, information science, biomedicine, and other fields. However, quantization of intermolecular energy during the fabrication process is still a difficult problem. A stochastic multi-molecular modeling method is proposed in this paper. The detailed molecular-interaction energies during the photo
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27

Tian, Yupeng, Mingliang Zhang, Xiaoqiang Yu, et al. "Two novel two-photon polymerization initiators with extensive application prospects." Chemical Physics Letters 388, no. 4-6 (2004): 325–29. http://dx.doi.org/10.1016/j.cplett.2004.02.099.

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28

Jia, Xiaoqin, Weixiang Han, Tanlong Xue та ін. "Diphenyl sulfone-based A–π-D–π-A dyes as efficient initiators for one-photon and two-photon initiated polymerization". Polymer Chemistry 10, № 17 (2019): 2152–61. http://dx.doi.org/10.1039/c8py01778f.

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29

Pisanello, Marco, Di Zheng, Antonio Balena, Filippo Pisano, Massimo De Vittorio, and Ferruccio Pisanello. "An open source three-mirror laser scanning holographic two-photon lithography system." PLOS ONE 17, no. 4 (2022): e0265678. http://dx.doi.org/10.1371/journal.pone.0265678.

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Two-photon polymerization is a widely adopted technique for direct fabrication of 3D and 2D structures with sub-diffraction-limit features. Here we present an open-hardware, open-software custom design for a holographic multibeam two-photon polymerization system based on a phase-only spatial light modulator and a three-mirror scanhead. The use of three reflective surfaces, two of which scanning the phase-modulated image along the same axis, allows to overcome the loss of virtual conjugation within the large galvanometric mirrors pair needed to accommodate the holographic projection. This exten
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30

Pisanello, Marco, Di Zheng, Antonio Balena, Filippo Pisano, Vittorio Massimo De, and Ferruccio Pisanello. "An open source three-mirror laser scanning holographic two-photon lithography system." PLoS ONE 17, no. 4 (2022): e0265678. https://doi.org/10.5281/zenodo.6536238.

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Two-photon polymerization is a widely adopted technique for direct fabrication of 3D and 2D structures with sub-diffraction-limit features. Here we present an open-hardware, open-software custom design for a holographic multibeam two-photon polymerization system based on a phase-only spatial light modulator and a three-mirror scanhead. The use of three reflective surfaces, two of which scanning the phase-modulated image along the same axis, allows to overcome the loss of virtual conjugation within the large galvanometric mirrors pair needed to accommodate the holographic projection. This exten
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31

Ovsianikov, A., A. Gaidukeviciute, B. N. Chichkov, et al. "Two-Photon Polymerization of Hybrid Sol-Gel Materials for Photonics Applications." Laser Chemistry 2008 (October 28, 2008): 1–7. http://dx.doi.org/10.1155/2008/493059.

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Two-photon polymerization of photosensitive materials has emerged as a very promising technique for the fabrication of photonic crystals and devices. We present our investigations into the structuring by two-photon polymerization of a new class of photosensitive sol-gel composites exhibiting ultra-low shrinkage. We particularly focus on two composites, the first containing a zirconium alkoxide and the second a nonlinear optical chromophore. The three-dimensional photonic crystal structures fabricated using these materials demonstrate high resolution and clear bandstops in the near IR region.
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32

Gontad, Francisco, Jaime Cuartero, Sara Vidal, Nerea Otero, Natalia M. Schulz, and Tobias Robert. "Use of Biobased Resins Derived from Renewable Monomers for Sustainable 3D Fabrication Through Two-Photon Polymerization." Journal of Manufacturing and Materials Processing 9, no. 3 (2025): 89. https://doi.org/10.3390/jmmp9030089.

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This work demonstrates the fabrication of microstructures with formulations containing bio-based prepolymers derived from itaconic acid, commercial reactive diluents, photo initiators, and inhibitors, through two-photon polymerization. Lateral and vertical resolutions within the micron range can be achieved by the adjustment of laser scanning speed and pulse energy, and through the use of microscope objectives with high magnification and numerical aperture. The fabrication throughput can be slightly increased by simultaneously increasing the laser pulse energy and scanning speed, with special
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33

Glöckler, Felix, Florian Hausladen, Igor Alekseenko, Alexander Gröger, Giancarlo Pedrini, and Daniel Claus. "Two-photon-polymerization enabled and enhanced multi-channel fibre switch." Engineering Research Express 3, no. 4 (2021): 045016. http://dx.doi.org/10.1088/2631-8695/ac34c5.

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Abstract This article discusses the fabrication and performance of a multi-channel fibre switch, consisting of 19 single-mode fibres, with enhanced coupling efficiency due to micro-optics, directly printed via two-photon-polymerization on the end-face of each fibre. The use of high-resolution two-photon-polymerization not only allows the enhancement of the coupling efficiency with respect to the coupling device in use but likewise offers great freedom in the arrangement of the used fibres. This letter gives a thorough explanation of the fabrication method as well as the optical simulations for
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34

Kotz, Frederik, Alexander S. Quick, Patrick Risch, et al. "Two‐Photon Polymerization: Two‐Photon Polymerization of Nanocomposites for the Fabrication of Transparent Fused Silica Glass Microstructures (Adv. Mater. 9/2021)." Advanced Materials 33, no. 9 (2021): 2170062. http://dx.doi.org/10.1002/adma.202170062.

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35

Holzer, Brigitte, Markus Lunzer, Arnulf Rosspeintner, et al. "Towards efficient initiators for two-photon induced polymerization: fine tuning of the donor/acceptor properties." Molecular Systems Design & Engineering 4, no. 2 (2019): 437–48. http://dx.doi.org/10.1039/c8me00101d.

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36

Stinson, Victoria Paige, Nuren Shuchi, Dustin Louisos, Micheal McLamb, Glenn D. Boreman, and Tino Hofmann. "Photonic Crystals Fabricated by Two-Photon Polymerization with Mechanical Defects." Optics 4, no. 2 (2023): 300–309. http://dx.doi.org/10.3390/opt4020021.

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One-dimensional photonic crystals have been used in sensing applications for decades, due to their ability to induce highly reflective photonic bandgaps. In this study, one-dimensional photonic crystals with alternating low- and high-density layers were fabricated from a single photosensitive polymer (IP-Dip) by two-photon polymerization. The photonic crystals were modified to include a central defect layer with different elastic properties compared to the surrounding layers, for the first time. It was observed that the defect mode resonance can be controlled by compressive force. Very good ag
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37

Yan, Linyu, Dong Yang, Qihuang Gong, and Yan Li. "Rapid Fabrication of Continuous Surface Fresnel Microlens Array by Femtosecond Laser Focal Field Engineering." Micromachines 11, no. 2 (2020): 112. http://dx.doi.org/10.3390/mi11020112.

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Femtosecond laser direct writing through two-photon polymerization has been widely used in precision fabrication of three-dimensional microstructures but is usually time consuming. In this article, we report the rapid fabrication of continuous surface Fresnel lens array through femtosecond laser three-dimensional focal field engineering. Each Fresnel lens is formed by continuous two-photon polymerization of the two-dimensional slices of the whole structure with one-dimensional scan of the corresponding two-dimensional engineered intensity distribution. Moreover, we anneal the lens array to imp
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38

Liu, Qing, Koen Vanmol, Sylvia Lycke, et al. "SERS using two-photon polymerized nanostructures for mycotoxin detection." RSC Advances 10, no. 24 (2020): 14274–82. http://dx.doi.org/10.1039/d0ra01909g.

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Nano-pillar arrays are presented ranging from 200 nm to 600 nm as SERS substrates for mycotoxin detection, fabricated by two-photon polymerization. This versatile approach gives new opportunities for material characterization in chemical and biological applications.
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39

You, Shangting, Jiawen Li, Wei Zhu, Claire Yu, Deqing Mei, and Shaochen Chen. "Nanoscale 3D printing of hydrogels for cellular tissue engineering." Journal of Materials Chemistry B 6, no. 15 (2018): 2187–97. http://dx.doi.org/10.1039/c8tb00301g.

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40

Duan, Xuan-Ming, Hong-Bo Sun, and Satoshi Kawata. "Microfabrication of Two and Three Dimensional Structures by Two-Photon Polymerization." Journal of Photopolymer Science and Technology 17, no. 3 (2004): 393–96. http://dx.doi.org/10.2494/photopolymer.17.393.

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41

Chung, Tien-Tung, Yi-Ting Tu, Ya-Hsun Hsueh, Sheng-Yuan Chen, and Wan-Jou Li. "Micro-lens Array Fabrication by Two Photon Polymerization Technology." International Journal of Automation and Smart Technology 3, no. 2 (2013): 131–35. http://dx.doi.org/10.5875/ausmt.v2i2.186.

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42

Khitrov, Greg. "Holographic Two-Photon Polymerization Increases Speed of Switchable Gratings." MRS Bulletin 25, no. 12 (2000): 6–7. http://dx.doi.org/10.1557/mrs2000.238.

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43

Liu Lipu, 刘力谱, 张世杰 Zhang Shijie, 杨宏 Yang Hong, 龚旗煌 Gong Qihuang, and 李焱 Li Yan. "Fabrication of Double-Helix Microstructures by Two-Photon Polymerization." Chinese Journal of Lasers 44, no. 1 (2017): 0102006. http://dx.doi.org/10.3788/cjl201744.0102006.

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44

Mckee, Seyyedhossien, Adrian Lutey, Corrado Sciancalepore, Federica Poli, Stefano Selleri, and Annamaria Cucinotta. "Microfabrication of polymer microneedle arrays using two-photon polymerization." Journal of Photochemistry and Photobiology B: Biology 229 (April 2022): 112424. http://dx.doi.org/10.1016/j.jphotobiol.2022.112424.

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45

Cui Lianhe, 崔联合. "Outer Gear Sets Micro-Fabrication by Two-Photon Polymerization." Laser & Optoelectronics Progress 52, no. 5 (2015): 051403. http://dx.doi.org/10.3788/lop52.051403.

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46

Joshi, Mukesh P., Haridas E. Pudavar, J. Swiatkiewicz, P. N. Prasad, and B. A. Reianhardt. "Three-dimensional optical circuitry using two-photon-assisted polymerization." Applied Physics Letters 74, no. 2 (1999): 170–72. http://dx.doi.org/10.1063/1.123283.

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47

Burmeister, Frank, Uwe D. Zeitner, Stefan Nolte, and Andreas Tünnermann. "High numerical aperture hybrid optics for two-photon polymerization." Optics Express 20, no. 7 (2012): 7994. http://dx.doi.org/10.1364/oe.20.007994.

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48

Boiko, Yuri, Joannes Costa, Mark M. Wang, and Sadik Esener. "Cationic two-photon induced polymerization with high dynamic range." Optics Express 8, no. 10 (2001): 571. http://dx.doi.org/10.1364/oe.8.000571.

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49

Yeung, Ka-Wai, Yuqing Dong, Ling Chen, et al. "Printability of photo-sensitive nanocomposites using two-photon polymerization." Nanotechnology Reviews 9, no. 1 (2020): 418–26. http://dx.doi.org/10.1515/ntrev-2020-0031.

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AbstractTwo-photon polymerization direct laser writing (TPP DLW) is an emerging technology for producing advanced functional devices with complex three-dimensional (3D) micro-structures. Tremendous efforts have been devoted to developing two-photon polymerizable photo-sensitive nanocomposites with tailored properties. Light-induced reconfigurable smart materials such as liquid crystalline elastomers (LCEs) are promising materials. However, due to the difficulties in designing two-photon polymerizable liquid crystal monomer (LCM) nanocomposite photoresists, it is challenging to fabricate true 3
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50

Li, Yan, ZhaoPei Liu, HaiBo Cui, Yun-Feng Xiao, Hong Yang, and Qihuang Gong. "Direct Writing of Photonic Structures by Two-Photon Polymerization." MATEC Web of Conferences 8 (2013): 06002. http://dx.doi.org/10.1051/matecconf/20130806002.

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