@book{CTT100869225,
  author = {福永 悠 and 岡田 哲男},
  title = {「ラマン分光スペクトルデータ解析事例集」第4章 新しいラマン測定法、機械学習を用いた解析の効率化 第2節 凍結によるラマン分光の高感度化},
  publisher = {株式会社技術情報協会},
  year = 2022,
}

@article{CTT100906656,
  author = {Yu Fukunaga and Mohamad Zandieh and Yibo Liu and Juewen Liu},
  title = {Salt-Induced Adsorption and Rupture of Liposomes on Microplastics},
  journal = {Langmuir},
  year = 2023,
}

@article{CTT100892711,
  author = {Yu Fukunaga and Rintaro Ogawa and Amane Homma and Tetsuo Okada},
  title = {Thin Layer Chromatography-Freeze Surface-Enhanced Raman Spectroscopy: A Powerful Tool for Monitoring Synthetic Reactions},
  journal = {},
  year = 2023,
}

@article{CTT100892712,
  author = {Yu Fukunaga and Tetsuo Okada},
  title = {Freeze Surface-Enhanced Raman Scattering Coupled with Thin-Layer Chromatography: Pesticide Detection and Quantification Case},
  journal = {},
  year = 2022,
}

@article{CTT100869224,
  author = {Yu Fukunaga and Makoto Harada and Tetsuo Okada},
  title = {Surface-enhanced Raman scattering of DNA bases using frozen silver nanoparticle dispersion as a platform},
  journal = {Microchimica Acta},
  year = 2021,
}

@article{CTT100869221,
  author = {Yu Fukunaga and Tetsuo Okada},
  title = {Quantification using statistical parameters derived from signalintensity distributions in surface enhanced Raman scattering (SERS)},
  journal = {ANAL CHIM ACTA},
  year = 2021,
}

@article{CTT100869222,
  author = {Makoto Harada and Hinako Sakai and Yu Fukunaga and Tetsuo Okada},
  title = {Hydration of bromide at reverse micelle interfaces studied by X-ray absorption fine structure},
  journal = {Journal of Colloid and Interface Science},
  year = 2021,
}

@article{CTT100869223,
  author = {Yu Fukunaga and Akihisa Miyagawa and Makoto Harada and Tetsuo Okada},
  title = {Freeze Control of Nanoparticle Aggregation and Exploration as Surface Enhanced Raman Scattering (SERS) Platform},
  journal = {ChemNanoMat},
  year = 2021,
}

@article{CTT100869220,
  author = {Amila Abeynayaka and Fujio Kojima and Yoshikazu Miwa and Nobuhiro Ito and Yasuo Nihei and Yu Fukunaga and Yuga Yashima and Norihiro Itsubo},
  title = {Rapid Sampling of Suspended and FloatingMicroplastics in Challenging Riverine and Coastal},
  journal = {Water},
  year = 2020,
}

@inproceedings{CTT100892714,
  author = {福永悠 and 岡田 哲男},
  title = {非水キャピラリー電気泳動とDFT計算によるグラフェンの帯電状態評価},
  booktitle = {},
  year = 2023,
}

@inproceedings{CTT100892713,
  author = {福永悠 and 岡田 哲男},
  title = {凍結SERS検出薄層クロマトグラフィーによる有機合成の反応追跡},
  booktitle = {},
  year = 2023,
}

@inproceedings{CTT100892809,
  author = {福永悠 and 岡田哲男},
  title = {凍結 SERS検出薄層クロマトグラフィー},
  booktitle = {},
  year = 2022,
}

@inproceedings{CTT100892810,
  author = {福永悠 and 岡田哲男},
  title = {非水キャピラリー電気泳動によるグラフェンの帯電状態評価},
  booktitle = {},
  year = 2022,
}

@inproceedings{CTT100892808,
  author = {福永悠 and 岡田哲男},
  title = {凍結SERS検出薄層クロマトグラフィー},
  booktitle = {},
  year = 2022,
}

@inproceedings{CTT100892715,
  author = {福永悠 and 岡田哲男},
  title = {凍結SERSによるDNA核酸塩基のレシオメトリー},
  booktitle = {},
  year = 2022,
}

@inproceedings{CTT100869231,
  author = {福永悠 and 岡田哲男},
  title = {凍結によるラマン分光の高感度化},
  booktitle = {},
  year = 2021,
}

@inproceedings{CTT100869230,
  author = {福永 悠 and 岡田 哲男},
  title = {表面増強ラマン散乱強度の統計解析による定量計測},
  booktitle = {},
  year = 2021,
}

@inproceedings{CTT100869229,
  author = {福永悠 and 岡田哲男},
  title = {表面増強ラマン散乱強度の統計解析による定量計測},
  booktitle = {},
  year = 2021,
}

@inproceedings{CTT100869232,
  author = {福永 悠 and 岡田 哲男},
  title = {共鳴ラマン分光によるcytochrome cの凍結挙動評価},
  booktitle = {},
  year = 2021,
}

@inproceedings{CTT100869226,
  author = {福永悠 and 原田誠 and 岡田哲男},
  title = {凍結による銀ナノ粒子の凝集制御に基づくSERS高感度化},
  booktitle = {},
  year = 2020,
}

@inproceedings{CTT100869228,
  author = {福永 悠 and 原田 誠 and 岡田 哲男},
  title = {凍結によるラマン分光の高感度化と汎用的な凍結系の探索},
  booktitle = {},
  year = 2020,
}

@inproceedings{CTT100869227,
  author = {福永悠 and 原田誠 and 岡田哲男},
  title = {凍結によるラマン分光の高感度化と生体分子への適用},
  booktitle = {},
  year = 2020,
}

@inproceedings{CTT100822802,
  author = {Yu Fukunaga and Makoto Harada and Tetsuo Okada},
  title = {High-sensitivity Raman spectroscopy with Ag nanoparticle aggregation controlled by freezing},
  booktitle = {},
  year = 2019,
}

@inproceedings{CTT100822855,
  author = {福永 悠 and 原田 誠 and 岡田哲男},
  title = {凍結によるラマン分光の高感度化とタンパク質の凍結変性評価},
  booktitle = {},
  year = 2019,
}

@inproceedings{CTT100826327,
  author = {福永悠 and 原田誠 and 岡田哲男},
  title = {凍結によるラマン分光の高感度化における氷結晶粒界のサイズ効果},
  booktitle = {},
  year = 2019,
}

@inproceedings{CTT100826317,
  author = {福永 悠 and 原田 誠 and 岡田哲男},
  title = {凍結によるラマン分光の高感度化},
  booktitle = {},
  year = 2019,
}

@misc{CTT100908989,
  author = {Yu Fukunaga},
  title = {Freeze Surface Enhanced Raman Scattering. An Approach to Highly Sensitive and Quantitative SERS Measurements},
  year = ,
}

@misc{CTT100908990,
  author = {福永悠},
  title = {凍結表面増強ラマン散乱。高感度で定量的なSERS 測定へのアプローチ},
  year = ,
}

@misc{CTT100908991,
  author = {福永悠},
  title = {凍結表面増強ラマン散乱。高感度で定量的なSERS 測定へのアプローチ},
  year = ,
}



@phdthesis{CTT100908989,
  author = {Yu Fukunaga},
  title = {Freeze Surface Enhanced Raman Scattering. An Approach to Highly Sensitive and Quantitative SERS Measurements},
  school = {東京工業大学},
  year = ,
}

@phdthesis{CTT100908990,
  author = {福永悠},
  title = {凍結表面増強ラマン散乱。高感度で定量的なSERS 測定へのアプローチ},
  school = {東京工業大学},
  year = ,
}

@phdthesis{CTT100908991,
  author = {福永悠},
  title = {凍結表面増強ラマン散乱。高感度で定量的なSERS 測定へのアプローチ},
  school = {東京工業大学},
  year = ,
}