研究業績Publications and Talks

Book Chapters/著書・章分担

  • M. Terakawa, Chapter “Laser-Induced Carbonization and Graphitization” in Handbook of Laser Micro- and Nano-Engineering. Springer Nature Switzerland AG (2021)
    DOI: https://doi.org/10.1007/978-3-319-69537-2_65-1

  • M. Terakawa, “Femtosecond Laser Direct Writing,” Micro/Nano Technologies. Micro and Nano Fabrication Technology, Springer (2018)

  • M. Terakawa and M. Obara, "Nanoablation Using Nanosphere and Nanotip," Ultrafast Laser Processing: From Micro- to Nanoscale, Chapter 7, Pan Stanford Publishing (2013).

  • Y. Tanaka, M. Terakawa, M. Obara, N. Nedyalkov, P. Atanasov, “Plasmonic Nanopatterning of the Material Surface Mediated with Gold Nanoparticles Excited by a Femtosecond Laser Pulse,” Gold Nanoparticles: Properties, Characterization, Chapter 6 (Nova Science Publishers, Inc. 2009).

  • 佐藤俊一, 寺川光洋, 小原實, “レーザー光を用いた遺伝子導入,” 「ウイルスを用いない遺伝子導入法の材料, 技術, 方法論の新たな展開」(メディカルドウ)第3章 遺伝子導入のための物理刺激, pp.160-166 (2006) (in Japanese).

Invited Talks/招待講演

  • M. Terakawa, “Laser-driven conversion of sustainable materials for electrical applications,” SPIE Photonics Europe (2024).

  • 寺川光洋, "レーザー誘起グラフェンの基礎から応用まで," 第71回応用物理学会春季学術講演会シンポジウム「レーザー改質プロセスの基礎と先端技術」(2024).

  • M. Terakawa, “Laser fabrication of functional microstructures on hydrogel,” 12th International Conference on Photo-Excited Processes and Applications (ICPEPA- 12) (2023).

  • M. Terakawa, “Laser direct writing on flexible materials for electrical and optical applications,” PIERS 2023 (2023).

  • M. Terakawa, “Laser-induced graphitization of sustainable materials,” The 24th International Symposium on Laser Precision Microfabrication (LPM2023) (2023).

  • M. Terakawa, “Femtosecond laser-induced modification of soft materials into conductive structures,” Progress in Ultrafast Laser Modification of Materials (PULMM) (2023).          

  • 寺川光洋, “フェムト秒レーザ誘起グラフェンとその応用,” 令和5年 電気学会全国大会シンポジウム「S11 レーザ精密加工の知見・技術の最前線」 (2023).

  • M. Terakawa, R. Miyakoshi, R. Funayama, S. Hayashi, “Laser-induced carbonization for electrical and optical applications,” 3rd International Workshop on Frontiers in Lasers and Applications (FLA-3) (2022).

  • M. Terakawa, “Femtosecond laser-induced carbonization and graphitization,” 22nd International Conference and School on Quantum Electronics (2022).

  • M. Terakawa, S. Hayashi, F. Morosawa, H. Tomikawa, Y. Nagano, M. Machida, H. Onoe, A. Heisterkamp, “Laser direct writing of functional microstructures in transparent soft materials using femtosecond laser,” SPIE Photonics West On Demand 2022 (2022).

  • M. Terakawa, “Laser-induced graphitization of soft and sustainable materials,” 2nd International Workshop on Frontiers in Lasers and Applications (FLA-2) (2021).

  • M. Terakawa, S. Hayashi, F. Morosawa, N. Nedyalkov, “Femtosecond laser-induced modification of elastomers to conductive materials” The International School on Quantum Electronics "Laser Physics and Applications (ISCQE) (2020).

  • M. Terakawa, “Multiphoton Photoreduction in Hydrogel” CLEO-Pacific Rim 2020 (2020).

  • M. Terakawa, M. Machida, K. Mizuguchi, R. Sano, H. Onoe, T. Niidome, A. Heisterkamp “Spatially-targeted laser fabrication of multimaterial microstructures in hydrogel,” SPIE Photonics West 2020 (2020).

  • 寺川光洋, “多光子還元によるハイドロゲル内部への金属微細構造の作製,” OCU先端光科学シンポジウム(2019)

  • M. Terakawa, Y. Nakajima, M. Machida, S. Hayashi, A. Katayama, O. Suttmann, N. Nedyalkov, A. Heisterkamp, “Integrating soft materials and metal microstructures by femtosecond laser processing,” SPIE Photonics West 2019 (2019).

  • (Plenary Talk) M. Terakawa, “3S Laser Processing: Integrating Soft Materials and Metal Microstructures,” 29th International Symposium on Micro-NanoMechatronics and Human Science (MHS) (2018)

  • M. Terakawa, Y. Nakajima, A. Katayama, N. Nedyalkov, “Femtosecond laser processing for fabrication of conductive composite microstructures,” 20th International Conference and School on Quantum Electronics (ICSQE2018) (2018)

  • M. Terakawa, “Fabrication of microstructures composed of metal and soft material by using femtosecond laser,” International Workshop on Frontiers in Lasers and Applications (FLA 2018) (2018)

  • M. Terakawa, “Fabrication of microstructures composed of metal and soft material by using femtosecond laser,” The 9th OCARINA International Symposium (2018)

  • 寺川光洋,柴田明道,近藤直柔,石井敦浩,Dag Heinemann,”超短パルスレーザーによる生体材料の微細加工,” レーザー学会学術講演会第38回年次大会(2018)

  • M. Terakawa, A. Shibata, M. Machida, Y. Nakajima, “Subtractive and additive processing of biocompatible materials using femtosecond laser” The 25th International Conference on Advanced Laser Technologies (ALT’17) (2017)

  • M. Terakawa, “Ultrafast laser processing of biomaterials,” European Materials Research Society (E-MRS) Spring Meeting 2017 (2017).

  • M. Terakawa, “Subtractive and additive processing of biomaterials using femtosecond laser,” International Congress on Applications on Lasers & Electro-Optics (ICALEO) (2016)

  • M. Terakawa, A. Shibata, S. Yada, M. Machida, M. L. Torres-Mapa, D. Heinemann, A. Heisterkamp, "Femtosecond laser-based subtractive and additive processing for bioapplications" JSAP-OSA Joint Symposia, The 77th JSAP Autumn Meeting 2016 (2016).

  • [Keynote] M. Terakawa, "Femtosecond laser surface nanoprocessing of biodegradable polymers,” European Materials Research Society (E-MRS) Spring Meeting (2015).

  • M. Terakawa, “Enhanced-ultrafast optical field for biomedical applications,” European Materials Research Society (E-MRS) Spring Meeting (2015).

  • Y. Nakajima, N. N. Nedyalkov, A. Takami, M. Terakawa, “High-throughput fabrication of nanowire-gratings on substrate by femtosecond laser irradiation,” 2015 Collaborative Conference on 3D and Materials Research (CC3DMR).

  • M. Terakawa, Y. Nakajima, A. Takami, S. Yada, A. Shibata, N. Nedyalkov, “Ultrafast laser-induced scattered far-field for fabrication of nanostructures, 17th International Conference on Transparent Optical Networks ICTON (2015).

  • M. Terakawa, “Femtosecond laser nanoablation of biodegradable polymer,” Advanced Laser Technologies ‘14 (2014).

  • M. Terakawa, G. Obara, A. Yamada, H. Shimizu, M. Obara, "Control of localized near field and long-range plasmon polaritons for nanophotonics," Fundamentals of Laser Assisted Micro- & Nanotechnologies (FLAMN-13) (2013).

  • M. Terakawa, “Biodegradable microsphere mediated perforation of cells using femtosecond laser for theranostics,” SPIE Photonics West (2013).

  • 寺川光洋,小原豪,田中悠人,清水九史,Eric Mazur,小原實,”フェムト秒レーザー励起増強局在近接場と遠方場によるナノプロセシング,” レーザー学会学術講演会第33回年次大会 (2013)

  • M. Terakawa, M. Obara, “Nanotemplate-Assisted Fabrication of Nanomeedle/ Nanoprotrusion Array and Nano- Periodic Surface Ripple,” 31st International Congress on Applications of Lasers & Electro-Optics (ICALEO) (2012)

  • M. Terakawa, M. Obara, "Localized near field and scattered far field for surface photonics," 14th International Conference on Transparent Optical Networks (ICTON) (2012).

  • M. Obara, G. Obara, T. Miyanishi, Y. Tanaka, M. Terakawa, "Far-field and near-field surface ablation patterning with coherent plasmon polaritons excited by a femtosecond laser," 11th International Conference on Laser Ablation (COLA) (2011).

  • Y. Tanaka, M. Terakawa, M. Obara, "Nanoablation using 2D gold and dielectric nanosphere templates excited by femtosecond laser," The 11th International Symposium on Laser Precision Microfabrication (LPM), (2010).

  • M. Obara, Y. Tanaka, G. Obara, A. Zenidaka, M. Terakawa, "Efficient femtosecond laser surface patterning using high dielectric constant particles with small size parameter," International Symposium on Gas Flow, Chemical Lasers, and High-Power Lasers 2010, (2010).

  • 寺川光洋,宮西智也,田中悠人,小原豪,銭高明,小原實,"フェムト秒レーザ励起増強近接場光によるナノプロセシング",電気学会 電子・情報・システム部門大会 (2010). 

  • 佐藤俊一, 佐藤泰司, 齋藤大蔵, 安藤貴洋, 寺川光洋, 小原實、”フォトメカニカル波の多彩な生体作用:細胞刺激から遺伝子導入まで,” レーザー学会学術講演会第30回年次大会 (2010)

  • S. Sato, M. Terakawa, M. Obara, “Targeted gene transfection by the use of laser-induced stress wave,” The 4th International Congress on Laser Advanced Materials Processing (2006)

Journal Papers/学術論文(英文)

  • K. Kashikawa, H. Tomikawa, H. Onoe, M. Terakawa, “Light-Triggered Transmittance Control in Thermoresponsive Hydrogels by Femtosecond Laser Direct Writing,” ACS Appl. Opt. Mater. (2024) published online first.

  • M. Kai, S. Hayashi, K. Kashikawa, M. Terakawa, “Temperature measurement and morphological/crystalline differences in the laser-induced carbonization of polydimethylsiloxane,” Opt. Mater. Exp. 14, 955 (2024).

  • S. Hayashi, X. Du, M. Rupp, K. A. Filsinger, M. Terakawa, C. B. Arnold, "Defect-initiated formation mechanism of 3D carbon tracks on flexible transparent substrates by laser irradiation," Optics & Laser Technology 174, 110686 (2024).

  • K. Tsunemitsu, A. Watanabe, H. Onoe, M. Terakawa, "Spatially-selective enhancement of mechanical strength through localized cross-linking of double network hydrogels," Opt. Mater. Exp. 13, 2914 (2023).

  • K. Muranaka, T. Niidome, M. L. Torres-Mapa, A. Heisterkamp, M. Terakawa, “Formation of gold nanoparticles inside a hydrogel by multiphoton photoreduction for plasmonic sensing,” Plasmonics 18, 751 (2023).

  • R. Miyakoshi, S. Hayashi, M. Terakawa, “Direct patterning of conductive structures on hydrogels by laser-based graphitization for supercapacitor fabrication,” Advanced Electronic Materials 9, 2201277 (2023).

  • R. Funayama, S. Hayashi, M. Terakawa, "Laser-Induced Graphitization of Lignin/PLLA Composite Sheets for Biodegradable Triboelectric Nanogenerators," ACS Sustainable Chem. Eng. 11, 3114 (2023).

  • S. Hayashi, M. Terakawa, "Direct Writing of Fluorescent Semiconducting Nanoparticles on Polydimethylsiloxane by Ultrashort-Pulsed Laser Processing: Implications for Electronic and Photonic Device Fabrication," ACS Appl. Nano Mater. 6, 3, 2125(2023).

  • N. Nedyalkov, A. Dikovska, R. Nikov, M. Koleva, K. Grochowska, R. Jendrzejewski, M. Terakawa, "Laser-induced dielectric to conductor transformation on the surface of aluminium nitride ceramic," Opt. Laser. Technol. (2023) published online first.

  • Y. Tsunoi, I. Takayama, N. Kondo, Y. Nagano, H. Miyazaki, S. Kawauchi, M. Akashi, D. Saitoh, M. Terakawa, S. Sato, "Cultivation and Transplantation of Three-Dimensional Skins with Laser-Processed Biodegradable Membranes," Tissue Engineering Part A. (2023) published online first.

  • R. Miyakoshi, S. Hayashi, M. Terakawa, "Simultaneous laser-based graphitization and microstructuring of bamboo for supercapacitors derived from renewable resources," RSC Adv. 12, 29647 (2022).

  • Y. Nagano, H. Onoe, M. Terakawa, "Light-driven flow control in the hydrogel microchannel by utilizing a metal microstructure fabricated by multiphoton photoreduction," Opt. Mater. Exp. 12, 3303 (2022).

  • E. Takeda, W. Xu, M. Terakawa, T. Niidome, "Tailored structure and antibacterial properties of silica-coated silver nanoplates by pulsed laser irradiation," ACS Omega 8, 7251 (2022).

  • N. Nedyalkov, A. Dikovska, R. Nikov, Ro.Nikov, T. Dliova, G. Atanasova, L. Aleksandrov, D. Karashanova, V. Strijkova, M. Terakawa, “Nanosecond laser-induced oriented periodic structures on AlN ceramic,” Appl. Surf. Sci. 585, 152712 (2022).

  • S. Hayashi, K. Tsunemitsu, M. Terakawa, “Laser Direct Writing of Graphene Quantum Dots inside a Transparent Polymer,” Nano Letters, 22, 775 (2022).

  • N. Nedyalkov, A. Dikovska, L. Aleksandrov, M. Terakawa, “Nanosecond laser ablation of AlN ceramic,” Applied Physics A 127, 951 (2021).

  • S. Hayashi, F. Morosawa, M. Terakawa, “Laser direct writing of highly crystalline graphene on PDMS for fingertip-sized piezoelectric sensors,” Advanced Engineering Materials 23, 2100457 (2021).

  • N. Nedyalkov, A. Dikovska, R. Nikov, G. Atanasova, S. Hayashi, M. Terakawa, “Laser-induced periodic surface structure formation in AlN ceramic,” Optics & Laser Technology, 144, 107402 (2021).

  • N. Nedyalkov, R. Nikov, R. Nikov, A. Dikovska, D. Karashanova, K. Grochowska, J. Karczewski, G. Sliwinski, M. Terakawa, “Pulsed laser deposition of plasmonic structures in air by irradiation through the substrate,” Thin Solid Films, 734, 138836 (2021).

  • H. Sugiyama, K. Tsunemitsu, H. Onoe, K. Obata, K. Sugioka, M. Terakawa, “Microfabrication of cellulose nanofiber-reinforced hydrogel by multiphoton polymerization” Scientific Reports 9, 2955 (2021).

  • F. Morosawa, S. Hayashi, M. Terakawa, “Femtosecond-laser-induced graphitization of transparent cellulose nanofiber films,” ACS Sustainable Chemistry & Engineering 9, 2955 (2021).

  • M. Machida, W. Shen, H. Onoe, Y. Hiruta, A. Heisterkamp, E. Mazur, M. Terakawa, “Anionic fluorophore-assisted fabrication of gold microstructures inside a hydrogel by multi-photon photoreduction,” Optical Materials Express 11, 48 (2021).

  • I. Takayama, A. Katayama, M. Terakawa, “Fabrication of Hollow Channels Surrounded by Gold Nanoparticles in Hydrogel by Femtosecond Laser Irradiation,” Nanomaterials 10, 2529 (2020).

  • K. Mizuguchi, Y. Nagano, H. Nishiyama, H. Onoe, M. Terakawa, “Multiphoton photoreduction for dual-wavelength-light-driven shrinkage and actuation in hydrogel,” Optical Materials Express 10, 1931 (2020).

  • S. Hayashi, F. Morosawa, M. Terakawa, “Synthesis of silicon carbide nanocrystals and multilayer graphitic carbon by femtosecond laser irradiation of polydimethylsiloxane,” Nanoscale Advances 2, 1886 (2020).

  • I. Takayama, N. Kondo, S. Kalies, A. Heisterkamp, M. Terakawa, “Myoblast adhesion and proliferation on biodegradable polymer films with femtosecond laser-fabricated micro through-holes,” Journal of Biophotonics, 13, e202000037 (2020).

  • N. Nedyalkov, A. Kikovska, M. Koleva, N. Stankova, R. Nikov, E. Borisova, Ts Genova, L. Aleksandrov, R. Iordanova, M. Terakawa, "Luminescence properties of laser-induced silver clusters in borosilicate glass,” Optical Materials 100, 109618 (2020).

  • T. Dilova, G. Atanasova, A. Og. Dikovska, G. Avdeev, M. Machida, M. Terakawa, P. Stefanov, N. Nedyalkov, “Effect of Pd-decoration on the sensing properties of ZnO nanostructures,” Thin Solid Films 693, 137693 (2020)

  • M. L. Torres-Mapa, M. Singh, O. Simon, J. L. Mapa, M. Machida, A. Günther, B. Roth, D. Heinemann, M. Terakawa, A. Heisterkamp, “Fabrication of a Monolithic Lab-on-a-Chip Platform with Integrated Hydrogel Waveguides for Chemical Sensing,” Sensors 19(19), 4333 (2019).

  • Shuichiro Hayashi, Yasutaka Nakajima, Mitsuhiro Terakawa, “Strain sensing using electrically conductive structures fabricated by femtosecond-laser-based modification of PDMS,” Opt. Mater. Express 9, 2672 (2019).

  • Manan Machida, Takuro Niidome, Hiroaki Onoe, Alexander Heisterkamp, and Mitsuhiro Terakawa, “Spatially-targeted laser fabrication of multi-metal microstructures inside a hydrogel,” Optics Express 27, 14657 (2019).

  • Y. Tsunoi, K. Araki, E. Ozeki, I. Hara, A. Shiotani, M. Terakawa, S. Sato, “Photoacoustic diagnosis of pharmacokinetics and vascular shutdown effects in photodynamic treatment with indocyanine green-lactosome for a subcutaneous tumor in mice,” Photodiagnosis Photodyn. Ther. 26, 436 (2019).

  • N. Kondo, M. Terakawa, “Biodegradability of poly(lactic-co-glycolic acid) irradiated with femtosecond laser pulses without material removal,” Applied Physics A 125, 135 (2019).

  • A. Hohnholz, K. Obata, Y. Nakajima, J. Koch, M. Terakawa, O. Suttmann, L. Overmeyer, "Hybrid UV laser direct writing of UV-curable PDMS thin film using aerosol jet printing," Applied Physics A 125, 120 (2019).

  • P. A. Atanasov, N. N. Nedyalkov, N. Fukata, W. Jevasuwan, T. Subramani, M. Terakawa, Y. Nakajima, “Surface-Enhanced Raman Spectroscopy (SERS) of mancozeb and thiamethoxam assisted by gold and silver nanostructures produced by laser techniques on paper,” Applied Spectroscopy 73, 313 (2018).

  • Y. Nakajima, S. Hayashi, A. Katayama, N. Nedyalkov, M. Terakawa, "Femtosecond laser-based modification of PDMS to electrically conductive silicon carbide," Nanomaterials 8, 558 (2018).

  • S. Johannsmeier, P. Heeger, M. Terakawa, S. Kalies, A. Heisterkamp, T. Ripken, D. Heinemann, “Gold nanoparticle-mediated laser stimulation induces a complex stress response in neuronal cells,” Scientific Reports, 8, 6533 (2018).

  • Y. Tsunoi, K. Yoshimi, R. Watanabe, N. Kumai, M. Terakawa, S. Sato, "Quality improvement of acoustic-resolution photoacoustic imaging of skin vasculature based on practical synthetic-aperture focusing and bandpass filtering," Japanese Journal of Applied Physics 57, 127001 (2018).

  • M. Machida, Y. Nakajima, M. L. Torres-Mapa, D. Heinemann, A. Heisterkamp, M. Terakawa,”Shrinkable silver diffraction grating fabricated inside a hydrogel using 522-nm femtosecond laser,” Scientific Reports 8, 187 (2018).

  • Y. Nakajima, K. Obata, M. Machida, A. Hohnholz, J. Koch, O. Suttmann, M. Terakawa, “Femtosecond-laser-based fabrication of metal/PDMS composite microstructures for mechanical force sensing,” Opt. Mater. Express 7, 4203 (2017).

  • K. Kyaw, H. Ichimaru, T. Kawagoe, M. Terakawa, Y. Miyazawa, D. Mizoguchi, M. Tsushida, T. Niidome, "Effects of pulsed laser irradiation on gold-coated silver nanoplates and their antibacterial activity" Nanoscale 9, 16101 (2017).

  • Kazushi Yamada, Chieko Narita, Ramanujam Kumaresan, Takuya Shinohara, Mitsuhiro Terakawa, Yasuyuki Tsuboi, “Nanofabrication of high throughput 20 nm hole 2D arrays by a simple visible laser ablation technique,” Applied Surface Science, 420, 868 (2017).

  • Nikolay Nedyalkov, Mihaela Koleva, Nadya Stankova, Rosen Nikov, Mitsuhiro Terakawa, Yasutaka Nakajima, Lyubomir Aleksandrov, Reni Iordanova, "Laser-assisted fabrication of gold nanoparticle-composed structures embedded in borosilicate glass," Beilstein J. Nanotechnol. 8, pp. 2454-2463 (2017).

  • Oliver Suttmann, Kotaro Obata, Yasutaka Nakajima, Arndt Hohnholz, Jürgen Koch, Mitsuhiro Terakawa, Ludger Overmeyer, "UV laser photo-polymerization of elastic 2D/3D structures using photo-curable PDMS (polydimethylsiloxane)," Journal of Laser Micro/Nanoengineering, 12, 2, pp. 153-158 (2017).

  • A. Shibata, M. Machida, N. Kondo, M. Terakawa “Biodegradability of poly(lactic-co-glycolic acid) and poly(l-lactic acid) after deep-ultraviolet femtosecond and nanosecond laser irradiation” Applied Physics A, 123, 438 (2017).

  • A. Takami, Y. Nakajima, M. Terakawa, “Formation of gold grating structures on fused silica substrates by femtosecond laser irradiation," Journal of Applied Physics, 121, 173103 (2017).

  • A. Ishii, Y. Hiruta, D. Heinemann, A. Heisterkamp, H. Kanazawa, M. Terakawa, "Intracellular localization and delivery of plasmid DNA by biodegradable microsphere-mediated femtosecond laser optoporation," Journal of Biophotonics 10, 1723 (2017).

  • N. Nedyalkov, R. Nikov, A. Dikovska, G. Atanasov, Y. Nakajima, M. Terakawa, “Gold nanostructures deposition by laser ablation in air using anno- and femtosecond laser pulses,” Applied Physics A  123, 306, 1-11  (2017).

  • T. Umemoto, A. Shibata, M. Terakawa, "Femtosecond laser irradiation of the fluorescent molecules-loaded poly(lactic-co-glycolic acid)," Appl. Surf. Sci. Vol. 417, 165 (2017).

  • A. Takami, Y. Nakajima, N. Nedyalkov, M. Terakawa, "The influence of the thermal diffusivity of the substrates on fabrication of metal nanostructures by femtosecond laser irradiation," Appl. Phys. A, Vol. 123, 126 (2017).

  • Y. Nakajima, N. Nedyalkov, A. Takami, M. Terakawa, "Fabrication of isolated platinum nanowire gratings and nanoparticles on silica substrate by femtosecond laser irradiation," Appl. Surf. Sci. Vol. 394, 108 (2017).

  • A. Shibata, S. Yada, M. Terakawa, "Biodegradability of poly(lactic-co-glycolic acid) after femtosecond laser irradiation," Sci. Rep., Vol. 6, 27884 (2016).

  • K. Ariyasu, A. Ishii, T. Umemoto, M. Terakawa, "Laser-triggered release of encapsulated molecules from polylactic-co-glycolic acid microcapsules," J. Biomed. Opt., Vol. 21, 85003 (2016).

  • A. Ishii, K. Ariyasu, T. Mitsuhashi, D. Heinemann, A. Heisterkamp, M. Terakawa, "Biodegradable-microsphere mediated cell perforation in microfluidic channel using femtosecond laser," J. Biomed. Opt., Vol. 21, 055001 (2016).

  • M. Terakawa, M. L. Torres-Mapa, A. Takami, D. Heinemann, N. N. Nedyalkov, Y. Nakajima, A. Hördt, T. Ripken, A. Heisterkamp, "Femtosecond laser direct writing of metal microstructure in a stretchable poly(ethylene glycol) diacrylate (PEGDA) hydrogel," Opt. Lett., Vol.41, 1392 (2016).

  • N. Nedyalkov, Y. Nakajima, M. Terakawa, "Magnetic nanoparticle composed nanowires fabricated by ultrashort laser ablation in air," Applied Physics Letters vol.108, 043107 (2016).

  • N. Nedyalkov, M. E. Koleva, Ru. Nikov, P. Atanasov, Y. Nakajima, A. Takami, A. Shibata, M. Terakawa, "Laser nanostructuring of ZnO thin films," Appl. Surf. Sci., Vol. 374, 172 (2015).

  • Y. Tsunoi, S. Sato, S. Kawauchi, Y. Akutsu, Y. Miyagawa, K. Araki, A. Shiotani, M. Terakawa, "Theranostic system for drug delivery and pharmacokinetic imaging based on nanosecond pulsed light-induced photomechanical and photoacoustic effects," Jpn. J. Appl. Phys. Vol.54, pp. 116601/1-6 (2015).

  • N. N. Nedyalkov, Y. Nakajima, A. Takami, M. Koleva, D. Karashanova, M. Terakawa, “Laser induced morphological and optical properties changes in Au doped aluminum oxide and silicon oxide thin films,” Opt. & Laser Technol., Vol. 79, 179 (2015).

  • Y. Nakajima, N. Nedyalkov, A. Takami, M. Terakawa, “Formation of periodic metal nanowire grating on silica substrate by femtosecond laser irradiation,” Appl. Phys. A, Vol. 119, 1215 (2015).

  • S. Yada, M. Terakawa, “Femtosecond laser induced periodic surface structure on poly-L-lactic acid,” Opt. Express Vol. 23, pp. 5694-5703 (2015).

  • A. Yamada, M. Terakawa, “Reverse design of a bull’s eye structure for oblique incidence and wider angular transmission efficiency,” Applied Optics Vol. 54, pp. 3517-3522 (2015).

  • Y. Tsunoi, S. Sato, R. Watanabe, S. Kawauchi, H. Ashida, M. Terakawa, "Compact acoustic-resolution photoacoustic imaging system with fiber-based illumination", Jpn. J. Appl. Phys. Vol. 53, pp. 126701/1-6 (2014).

  • H. Shimizu, S. Yada, G. Obara, M. Terakawa, “Contribution of defect on early stage of LIPSS formation,” Opt. Express Vol. 22, pp. 17990-17998 (2014).

  • S. Sato, K. Yoshida, S. Kawauchi, K. Hosoe, Y. Akutsu, N. Fujimoto, H. Nawashiro, M. Terakawa, “High site-selective transvascular drug delivery by the use of nanosecond pulsed laser-induced photomechanical waves,” J. Controlled Release Vol. 192, pp. 228-235 (2014).

  • T. Mitsuhashi, M. Terakawa, "Evaluation of parameters influencing the molecular delivery by biodegradable microsphere-mediated perforation using femtosecond laser," J. Biomed. Opt., Vol. 19, pp. 015003/1-7 (2014).

  • T. Shinohara, M. Terakawa “Gold nanosphere propulsion by using femtosecond laser-excited enhanced near field,” Appl. Phys. A Vol. 116, pp. 1025-1031 (2014).

  • N. Nedyalkov, A. Nikolov, P. Atanasov, M. Alexandrov, M. Terakawa, H. Shimizu, “Nanostructured Au film produced by pulsed laser deposition in air at atmospheric pressure,” Opt. Laser Tech., Vol. 64, pp. 41-45 (2014).

  • P. A. Atanasov, N. N. Nedyalkov, A. Og Dikovska, R. Nikov, S. Amoruso, X. Wang, R. Bruzzese, K. Hirano, H. Shimizu, M. Terakawa, M. Obara, “Noble metallic nanostructures: preparation, properties, applications,” J. Physics, Vol. 514, pp. 012024/1-8 (2014).

  • M. E. Koleva, N. N. Nedyalkov, A. OG.T.Dikovska, P. A. Atanasov, G. V. Avdeev, H. Shimizu, M. Terakawa, M. Obara, D. Pallotti, E. Orabona, P. Maddalena, S. Lettieri, “Nanostructured Ag/ZnO multilayer plasmonic composites,” Journal of Optoelectronics and Advanced Materials, Vol. 16, pp. 144-148 (2014).

  • Y. Tsunoi, S. Sato, S. Kawauchi, H. Ashida, D. Saitoh, M. Terakawa, "In vivo photoacoustic molecular imaging of the distribution of serum albumin in rat burned skin," Burns, Vol. 39, pp. 1403-1408 (2013).

  • H. Shimizu, G. Obara, M. Terakawa, M. Obara, “Evolution of femtosecond laser-induced surface ripples on lithium niobate crystal surfaces,” Appl. Phys. Exp. 6, pp. 112701/1-3 (2013).

  • T. Enami, G. Obara, M. Terakawa, M. Obara, “Electron excitation effect on scattering near-field and far-field ablation material processing by femtosecond laser irradiation,” Appl. Phys. A, Vol. 114, pp. 253-259 (2014).

  • A. Yamada, M. Terakwa, “Reverse design of a bull’s eye structure based on the plasmonic far-field pattern,” Opt. Exp., Vol. 21, pp. 21273-21284 (2013).

  • K. Hirano, H. Shimizu, T. Enami, M. Terakawa, M. Obara, N. N. Nedyalkov, P. A. Atanasov, “Plasmonic nanometric optical tweezers in an asymmetric space of gold nanostructured substrates,” Journal of Nanotechnology in Diagnosis and Treatment, Vol. 1, pp. 2-10 (2013).

  • M. Terakawa, T. Mitsuhashi, T. Shinohara, H. Shimizu, "Near-infrared femtosecond laser-triggered nanoperforation of hollow microcapsules," Opt. Exp., Vol. 21, pp. 12604-12610 (2013).

  • R. Nikov, N. Nedyalkov, P. A. Atanasov, M. Terakawa, H. Shimizu, M. Obara,"Tuning the optical properties of gold nanostructures fabricated on flexiblesubstrates," Appl. Surf. Sci. Vol. 264, p. 779 (2013).

  • T. Honda, M. Terakawa, M. Obara, “Photocatalytic nano-optical trapping using TiO2 nanosphere pairsmediated with Mie scattered near-field,” Appl. Phys. B Vol. 111, pp. 117-126 (2013).

  • G. Obara, H. Shimizu, T.Enami, E. Mazur, M.Terakawa, M.Obara, "Growth of high spatial frequency periodic ripple structures on SiC crystal surfaces irradiated with successive femtosecond laser pulses," Opt. Express, Vol. 21, pp. 26323-26334 (2013).

  • M. Terakawa, Y. Tsunoi, T. Mitsuhashi, "In vitro perforation of human epithelial carcinoma cell with antibody-conjugated biodegradable microspheres illuminated by a single 80 fs near-infrared laser pulse", Int. J. Nanomedicine, Vol. 7, pp. 2653-2660 (2012).

  • A. Zenidaka, T. Honda, M. Terakawa, "Physics in plasmonic and Mie scattered near-field for efficient surface enhanced Raman scattering template", Appl. Phys. A, Vol. 105, pp. 393-398 (2011).

  • M. Terakawa, Y. Tanaka, "Dielectric microsphere mediated transfection using femtosecond laser," Opt. Lett. Vol. 39, pp. 2877-2879 (2011) [Highlighted in Nature Physics, Vol. 7, p. 670 (2011)].

  • G. Obara, N. Maeda, T. Miyanishi, M. Terakawa, N. N. Nedyalkov, M. Obara, "Plasmonic and Mie scattering control of far-field interference for regular ripple formation on various material substrates," Opt. Exp. Vol. 19, pp. 19093-19103 (2011).

  • G. Obara, Y. Tanaka, N. N. Nedyalkov, M. Terakawa, M. Obara, "Direct observation of surface plasmon far field for regular surface ripple formation by femtosecond laser pulse irradiation of gold nanostructures on silicon substrates," Appl. Phys. Lett. Vol. 99, pp. 061106/1-3 (2011).

  • M. Terakawa, Y. Tanaka, G. Obara, T. Sakano, M. Obara, "Randomly-grown high-dielectric- constant ZnO nanorods for near-field enhanced Raman scattering", Appl. Phys. A Vol. 102, pp. 661-665 (2011).

  • A. Zenidaka, Y. Tanaka, M. Miyanishi, M. Terakawa, M. Obara, "Comparison of two-dimensional periodic array of convex and concave nanostructure for efficient SERS templates", Appl. Phys. A Vol. 103, pp. 225-231 (2011).

  • M. Terakawa, E. Toratani, T. Shirakawa, M. Obara, "Fabrication of void array in dielectric materials by femtosecond laser micro-processing for compact photonic devices", Appl. Phys. A Vol. 100, pp. 1041-1047 (2010).

  • M. Terakawa, H.Tsuda, H. Ashida, S. Sato, "Assessment of Tissue Alteration in Skin after Interaction with Photomechanical Waves used for Gene Transfection", Lasers in Surg. Med. Vol. 42, pp. 400-407 (2010).

  • L. Huang, M. Terakawa, T. Zhiyentayev, Y. Huang, Y. Sawayama, A. Jahnke, G. Tegos, T. Wharton, M. Hamblin, “Novel cationic fullerenes as broad-spectrum light-activated antimicrobials,” Nanomedicine Vol. 6, pp. 442-452 (2010).

  • T. Sakai, Y. Tanaka, Y. Nishizawa, M. Terakawa, M. Obara, “Size parameter effect of dielectric small particle mediated nano-hole patterning on silicon wafer by femtosecond laser,” Appl. Phys. A Vol. 99, pp. 39-46 (2010).

  • Y. Tanaka, G. Obara, A. Zenidaka, M. Terakawa, M. Obara, "Femtosecond laser near-field nano-ablation patterning using Mie resonance high dielectric constant particle with small size parameter", Appl. Phys. Lett. Vol. 96, pp. 261103/1-3 (2010).

  • Y. Tanaka, G. Obara, A. Zenidaka, N. N. Nedyalkov, M. Terakawa, M. Obara, "Near-field interaction of two-dimensional high-permittivity spherical particle arrays on substrate in the Mie resonance scattering domain," Opt. Exp. Vol. 18, pp. 27226-27237 (2010).

  • T. Miyanishi, Y. Tanaka, M. Terakawa, M. Obara, “Uniform surface patterning with two-dimensional gold nanoparticle array excited by oblique femtosecond laser irradiation,” Jpn. J. Appl. Phys. Vol. 49, pp. 055001/1-7 (2010).

  • K. Aizawa, S. Sato, M. Terakawa, D. Saitoh, H. Tsuda, H. Ashida, M. Obara, “Accelerated adhesion of grafted skin by laser-induced stress wave-based gene transfer of hepatocyte growth factor,” J. Biomed. Opt. Vol. 14, No.6, pp. 064043/1-9 (2009).

  • S. Takano, S. Sato, M. Terakawa, H. Ashida, H. Okano, M. Obara, “Enhanced transfection efficiency in laser-induced stress wave-assisted gene transfer at low laser fluence by increasing pressure impulse,” Appl. Phys. Exp. Vol.1, No.3, pp.038001/1-3 (2008).

  • M. Terakawa, R. Otsuka, S. Sato, Y. Satoh, K. Takishima, H. Ashida, H. Okano, M. Obara, “Laser-induced stress wave-assisted gene transfection with cationic liposome,” Jpn. J. Appl. Phys. Vol.46, pp.L1243-L1245 (2007).

  • M. Terakawa, S. Sato, D. Saitoh, H. Tsuda, H. Ashida, H. Okano, M. Obara, “Enhanced angiogenesis in graftedskins by laser-induced stress wave-assisted gene transfer of hepatocyte growth factor,” J. Biomedical Optics Vol. 12, pp.034031/1-8 (2007).

  • M. Terakawa, S. Sato, H. Ashida, H. Okano, M. Obara, “Integrity of plasmid DNA after application of laser-induced stress waves used for gene transfection,” Jpn. J. Appl. Phys. Vol.45, pp.L768-769 (2006).

  • M. Terakawa, S. Sato, H. Ashida, K. Aizawa, M. Uenoyama, Y. Masaki, M. Obara, “In vitro gene transfer to mammalian cells by the use of laser-induced stress waves: effects of stress wave parameters, ambient temperature, and cell type,” J. Biomedical Optics Vol. 11, pp. 014026/1-7 (2006).

  • Y. Satoh, Y. Kanda, M. Terakawa, M. Obara, K. Mizuno, Y. Watanabe, S. Endo, S. Sato, K. Takishima, "Targeted DNA transfection into the mouse central nerves system using a laser-induced stress wave", J. Biomed. Opt. Vol. 10, pp. 060501/1-3 (2005).

  • M. Terakawa, M. Ogura, S. Sato, H. Wakisaka, H. Ashida, M. Uenoyama, Y. Masaki, M. Obara, "Gene transfer into mammalian cells by use of a nanosecond pulsed laser-induced stress wave", Opt. Lett. Vol. 29, pp. 1227-1229 (2004).

  • M. Terakawa, S. Sato, S. Kawauchi, H. Ashida, M. Obara, "Enhanced photodynamic effect by the assistance of nanosecond pulsed laser-induced stress wave", Jpn. J. Appl. Phys. Vol. 43, pp. L877-L878 (2004).

  • M. Ogura, S. Sato, M. Terakawa, H. Wakisaka, M. Uenoyama, T. Ikeda, H. Ashida, M. Obara, "Delivery of photosensitizer to cells by the stress wave induced by a single nanosecond laser pulse", Jpn. J. Appl. Phys. Vol. 42, pp. L977-L979 (2003).

Review Papers/学術論文(総説・解説論文)

  • D. Heinemann, M. Zabic, M. Terakawa, J. Boch, “Laser-based molecular delivery and its applications in plant science” Plant Methods 18, 82 (2022).

  • M. Terakawa, “Femtosecond Laser Processing of Biodegradable Polymers,” Applied Sciences, Vol. 8, 1123 (2018).

  • M. Terakawa, N. N. Nedyalkov, “Near-Field Optics for Nano Processing,” Advanced Optical Technologies Vol. 5, pp. 17-28 (2016).

  • M. Terakawa, S. Takeda, Y. Tanaka, G. Obara, T. Miyanishi, T. Sakai, T. Sumiyoshi, H. Sekita, M. Hasegawa, P. Viktorovitch, M. Obara, "Enhanced localized near field and scattered far field for surface nanophotonics applications", Prog. Quantum Electron. Vol. 36, pp. 194-271 (2012).

Review Papers (in Japanese)/学術論文(総説・解説論文)

  • 寺川光洋, “レーザー炭化によるグラフェン生成とその新展開”, OPTRONICS, Vol. 41, No. 484, pp. 153-158 (2022).

  • 林秀一郎、寺川光洋、”フェムト秒レーザー改質による高分子材料への導電性付与,” 表面技術、第71号、第11巻、pp. 684-688 (2020).

  • 寺川光洋、”超短パルスレーザーによる多光子還元,” 光アライアンス、第30巻、第8号、pp. 55-58 (2019).

  • 寺川光洋、町田茉南、中島康貴、"フェムト秒レーザーによるソフトマテリアル・金属複合微細構造の作製," レーザー研究、第46巻、第5号、pp. 272-276 (2018).

  • 角井泰之、川内聡子、寺川光洋、佐藤俊一、"短パルス光の音響的および機械的作用に基づいた薬剤輸送セラノスティックス," レーザー研究, 第45巻, 第11号, pp. 709-713 (2017).

  • 市丸裕晃、Kaung KYAW、川越嵩之、寺川光洋、宮澤雄太、溝口大剛、津志田雅之、新留琢郎、"パルスレーザーでコントロールする銀ナノプレートの抗菌活性," レーザー研究, 第45巻, 第11号, pp. 705-708 (2017).

  • 寺川光洋, “バイオ・ソフトマテリアルのフェムト秒レーザー加工”, OPTRONICS, Vol. 36, No. 424, pp. 149-153 (2017)

  • 寺川光洋, 石井敦浩, “フェムト秒レーザーによる微粒子を用いた極微細加工と生体応用,” レーザー研究,第44巻,第12号,pp. 809-813 (2016).

  • 佐藤俊一,角井泰之,川内聡子,寺川光洋,“光音響イメージング法の研究動向,” 光アライアンス, 第27巻, 第2号, pp. 23-26 (2016).

  • 寺川光洋,矢田周平, “生分解性ポリマーのレーザプロセシングとそのバイオ・メディカル応用” 電気学会論文誌C(電子・情報・システム部門誌) 第135巻, 第9号, pp. 1043-1048 (2015).

  • 寺川光洋,“フェムト秒レーザーを用いた生分解性ポリマーの微細加工,”O plus E,第37巻,第2号, pp. 115-118 (2015).

  • 寺川光洋,三橋龍樹,有安和優,”フェムト秒レーザと微粒子を利用したドラッグデリバリー,” レーザ加工学会誌,第21巻,第3号,pp. 24-29 (2014).

  • 佐藤俊一,角井泰之,齋藤大蔵,寺川光洋,”光音響イメージング法による皮膚の多機能診断,” O plus E,第34巻,第11号,pp.1056-1061 (2012).

  • 坂野竜則,田中悠人,小原豪,寺川光洋,小原實,"ランダム成長ZnOナノロッドによるプラズモン増強ラマン散乱," レーザー研究,第39巻,第3号,pp. 178-183 (2011).

  • 佐藤俊一, 相澤和也, 寺川光洋,齋藤大蔵,津田均,芦田廣,小原實, “移植皮膚への肝細胞増殖因子(HGF)遺伝子導入による生着促進の試み-レーザー誘起応力波の応用,” 形成外科,第52巻,第5号,pp.501-507 (2009).

  • 寺川光洋, 佐藤俊一, 小原實, “レーザと細胞・組織の相互作用を利用したレーザ治療,” 日本機械学会誌, 第110 巻, pp.871-873 (2007).

  • 佐藤俊一,寺川光洋,小原實, “レーザー誘起応力波を用いた in vivo における部位選択的遺伝子導入,” レーザー研究,第35巻,第7号,pp.445-447 (2007).

  • 佐藤俊一,寺川光洋,小原實, “レーザー誘起応力波を用いた選択的遺伝子導入,” 応用物理,第76巻,第4号,pp. 405-409 (2007).

  • 佐藤俊一,小倉誠,寺川光洋,小原實, “レーザー誘起応力波による遺伝子導入,” 光学,第34巻,第2号,pp. 87-89 (2005).

Research Highlights & Articles/記事掲載等