Faculty Profiles - HASEGAWA George

写真a

HASEGAWA George

Organization

Institute of Materials and Systems for Sustainability Division of Materials Research (DM) Designated Associate Professor

Graduate School

Graduate School of Engineering

Contact information

Homepage

http://www.chembio.nagoya-u.ac.jp/labhp/solid3/

External link

Degree 1

博士（理学）（ 2012.3 京都大学）

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Research Areas 2

Nanotechnology/Materials / Inorganic materials and properties
Nanotechnology/Materials / Inorganic compounds and inorganic materials chemistry

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Research History 6

Nagoya University Institute of Materials and Systems for Sustainability Designated Associate Professor

2019.11

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Country：Japan
Kyushu University Graduate School of Engineering Assistant Professor

2016.10 - 2019.10

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Country：Japan
Osaka University The Institute of Scientific and Industrial Research Assistant Professor

2015.9 - 2016.9

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Country：Japan
Kyoto University Graduate School of Science Researcher

2015.4 - 2015.8

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Country：Japan
Kyoto University Graduate School of Engineering JSPS Research Fellow (PD)

2012.4 - 2015.3

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Country：Japan
Kyoto University Graduate School of Engineering JSPS Research Fellow (DC2)

2010.4 - 2012.3

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Country：Japan

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Education 3

Kyoto University Graduate School, Division of Natural Science Department of Chemistry

- 2012.3

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Country： Japan
Kyoto University Graduate School, Division of Natural Science Department of Chemistry

- 2009.3

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Country： Japan
Kyoto University Faculty of Science

- 2007.3

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Country： Japan

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Professional Memberships 6

電気化学会

2023.4
The American Ceramic Society

2021.10
日本セラミックス協会

2014.4
International Sol-Gel Society

2011.8
日本ゾル－ゲル学会

2009.4
炭素材料学会

2009.4

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Committee Memberships 3

炭素材料学会次世代の会幹事長

2023.1 - 2024.12
炭素材料学会運営委員

2023.1 - 2024.12

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Committee type：Academic society
炭素材料学会次世代の会副幹事長

2021.1 - 2022.12

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Awards 7

D. R. Ulrich Award

2021.10 International Sol-Gel Society (ISGS)

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Award type：International academic award (Japan or overseas)
Tokai Chemical Industry Association Award

2023.5 Tokai Chemical Industry Association
研究奨励賞

2021.12 炭素材料学会多孔質炭素モノリスの細孔構造制御と自立型電極を用いた電気化学特性評価

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Award type：Award from Japanese society, conference, symposium, etc.
進歩賞

2021.6 日本セラミックス協会

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Award type：Award from Japanese society, conference, symposium, etc. Country：Japan
倉田元治賞

2019 日本セラミックス協会

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Award type：Award from Japanese society, conference, symposium, etc. Country：Japan
Best Poster Award (XVII International Sol–Gel Conference, Sol–Gel 2013)

2013.8 International Sol-Gel Society (ISGS)

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Award type：Award from international society, conference, symposium, etc. Country：Spain
Springer Theses Award

2012 Springer

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Country：Japan

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Papers 74

Hydrogarnet-Derived Porous Polyhedral Particles of SrFeO3-δ Perovskite Reviewed

Hikaru Otaguro, Tomoki Takeno, Ryosuke Sugimoto, Saburo Hosokawa, Hirofumi Akamatsu, Takahisa Yamamoto, Kazuki Nakanishi, Katsuro Hayashi, George Hasegawa

Chemistry of Materials Vol. 35 ( 16 ) page： 6423 - 6436 2023.8

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Authorship：Last author,　Corresponding author Language：English Publishing type：Research paper (scientific journal) Publisher：American Chemical Society (ACS)

DOI： 10.1021/acs.chemmater.3c01150

Scopus
NASICON-Based All-Solid-State Na-ion Batteries: A Perspective on Manufacturing via Tape-Casting Process Invited Reviewed

George Hasegawa, Katsuro Hayashi

APL Energy Vol. 1 ( 2 ) page： 020902 2023.7

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Authorship：Lead author,　Corresponding author Language：English
Enhanced Electrochemical and Transportation Properties in a NASICON-Type Na3Zr2(SiO4)2(PO4)–Na3Ti2(PO4)3 Junction Prepared by Spin Coating and Glass-Ceramic Processes Reviewed

Shufan Jia, Saneyuki Ohno, Jian Wang, George Hasegawa, Hirofumi Akamatsu, Katsuro Hayashi

ACS Applied Energy Materials Vol. 6 ( 1 ) page： 317 - 325 2022.12

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Language：English Publishing type：Research paper (scientific journal) Publisher：American Chemical Society (ACS)

DOI： 10.1021/acsaem.2c03022

Web of Science

Scopus
Topochemical Synthesis of LiCoF3 with a High-Temperature LiNbO3-Type Structure Reviewed

Yumi Matsuo, Yuko Matsukawa, Masahiro Kitakado, George Hasegawa, Suguru Yoshida, Ryoto Kubonaka, Yuya Yoshida, Tatsushi Kawasaki, Eiichi Kobayashi, Chikako Moriyoshi, Saneyuki Ohno, Koji Fujita, Katsuro Hayashi, Hirofumi Akamatsu

Inorganic Chemistry Vol. 61 ( 30 ) page： 11746 - 11756 2022.8

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Language：English Publishing type：Research paper (scientific journal) Publisher：American Chemical Society (ACS)

DOI： 10.1021/acs.inorgchem.2c01439

Web of Science
Free-standing and binder-free porous monolithic electrodes prepared via sol-gel processes Reviewed

George Hasegawa

JOURNAL OF SOL-GEL SCIENCE AND TECHNOLOGY Vol. 103 ( 2 ) page： 637 - 679 2022.8

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Authorship：Lead author,　Corresponding author Language：English Publishing type：Research paper (scientific journal) Publisher：SPRINGER

Electrochemical devices that harvest or store electrical energy are indispensable to our daily life and are currently of growing importance in the future prosperity of the world economy. The sol-gel technology has contributed substantially to the development of electrode materials and electrocatalysts, particularly in terms of the synthesis of nano-sized and/or nanostructured particles. As with the other application fields, nanomaterials with enriched active surface sites can enhance electrode performance, and hence, have been substituted for the classical low-surface-area electrodes like rods and plates. However, the powdery nanomaterials need to be fixed on an electrode substrate in a mixture with binders and conductive agents, which imposes several drawbacks especially in fundamental research. In this context, free-standing and binder-free monolithic electrodes bearing rationally designed nanostructures have emerged as advanced electrode materials based on the concept of incorporating the nanomaterials into the classical bulky electrodes. This review focuses on the recent progress in porous monolithic electrodes with special concern for those with three-dimensionally interconnected porous structures prepared via the sol-gel processes accompanied by phase separation. In addition to the synthesis and pore control for various electrode materials, the insights garnered from the electrochemical investigations on the porous monolithic electrodes are overviewed.[GRAPHICS]

DOI： 10.1007/s10971-022-05862-5

Web of Science

Scopus
Mechanical and thermal properties of porous polyimide monoliths crosslinked with aromatic and aliphatic triamines Reviewed

Mitsuhiro Ishida, Yutaro Sashiyama, Hirofumi Akamatsu, Katsuro Hayashi, Kazuki Nakanishi, George Hasegawa

Journal of Sol-Gel Science and Technology Vol. 104 ( 3 ) page： 526 - 536 2022.5

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Authorship：Last author,　Corresponding author Language：English Publishing type：Research paper (scientific journal) Publisher：Springer Science and Business Media LLC

DOI： 10.1007/s10971-022-05843-8

Web of Science

Scopus

Other Link： https://link.springer.com/article/10.1007/s10971-022-05843-8/fulltext.html
Glass-ceramic route to NASICON-type Na Ti2(PO4)3 electrodes for Na-ion batteries Reviewed

Shufan Jia, Hirofumi Akamatsu, George Hasegawa, Saneyuki Ohno, Katsuro Hayashi

Ceramics International Vol. 48 ( 17 ) page： 24758 - 24764 2022.5

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Language：English Publishing type：Research paper (scientific journal) Publisher：Elsevier BV

DOI： 10.1016/j.ceramint.2022.05.125

Web of Science

Scopus
Porous polymer-derived ceramics: Flexible morphological and compositional controls through sol-gel chemistry Invited Reviewed

George Hasegawa, Kazuyoshi Kanamori, Kazuki Nakanishi

JOURNAL OF THE AMERICAN CERAMIC SOCIETY Vol. 105 ( 1 ) page： 5 - 34 2022.1

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Authorship：Lead author,　Corresponding author Language：English Publishing type：Research paper (scientific journal) Publisher：WILEY

Porous nonoxide ceramics have exhibited impressive progress in terms of synthesis and applications over the past few decades because of their unique characteristics distinguished from the oxide counterparts. From the synthetic aspect, the preceramic polymer route, where nonoxide ceramics such as carbides and nitrides are produced from molecular precursors, offers exceptional opportunities to elaborate and control the material shape as well as the micro- and nanostructures in concert with various techniques. This review presents monolithic ceramic materials based on various reduced phases bearing hierarchical porosity with a focus on those obtained from macroporous preceramic monoliths prepared via the one-pot sol-gel process accompanied by spinodal decomposition. Here, we highlight two classes of preceramic inorganic-organic hybrid gels: organometallic crosslinked polymers based on poly(silsesquioxane)s and nonorganometallic hybrid networks related to Ti without Ti-C bonds. The polymer-to-ceramic conversion processes are discussed with concern for the crystal transition behaviors and the variation of pore properties in different length scales upon heating. In addition, although out of the preceramic polymer category, some examples of inorganic-organic nanocomposite gels with a carbonizable polymer and/or urea for yielding porous metal carbides and nitrides in a monolithic form are introduced as well, which provides extended versatility toward a variety of transition metal systems.

DOI： 10.1111/jace.18130

Web of Science

Scopus
Sodium ion conduction in sodium lanthanum zirconate ceramics prepared by spark plasma sintering

Toyomura Naoto, Hasegawa George, Nishimi Kazuma, Inada Miki, Enomoto Naoya, Hayashi Katsuro

SCRIPTA MATERIALIA Vol. 200 2021.7

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Language：Japanese

DOI： 10.1016/j.scriptamat.2021.113887

Web of Science
Preparation of hierarchically porous spinel CoMn2O4 monoliths via sol-gel process accompanied by phase separation

Lu Xuanming, Kanamori Kazuyoshi, Hasegawa George, Nakanishi Kazuki

JOURNAL OF THE AMERICAN CERAMIC SOCIETY Vol. 104 ( 6 ) page： 2449 - 2459 2021.6

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Language：Japanese

DOI： 10.1111/jace.17662

Web of Science
Sn-Based Perovskite with a Wide Visible-Light Absorption Band Assisted by Hydride Doping

Nakamura Masashi, Watanabe Hiroshi, Akamatsu Hirofumi, Fujii Kotaro, Yashima Masatomo, Hasegawa George, Inada Miki, Hayashi Katsuro, Maeda Kazuhiko

CHEMISTRY OF MATERIALS Vol. 33 ( 10 ) page： 3631 - 3638 2021.5

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Language：Japanese

DOI： 10.1021/acs.chemmater.1c00460

Web of Science
Porous reduced ceramic monoliths derived from silicon- and titanium-based preceramic polymer gels Invited Reviewed

George Hasegawa

JOURNAL OF THE CERAMIC SOCIETY OF JAPAN Vol. 129 ( 5 ) page： 227 - 233 2021.5

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Authorship：Lead author,　Corresponding author Language：English Publisher：CERAMIC SOC JAPAN-NIPPON SERAMIKKUSU KYOKAI

Preceramic polymer routes, which produce ceramic products called polymer-derived ceramics (PDCs) from molecular precursors, have been developed as a powerful tool to synthesize reduced ceramics in different morphologies (fibers, coatings and monoliths) for over half a century. In recent years, pore control of porous ceramic monoliths has attracted attention for improving their functionalities, which has driven the preceramic polymer routes to be integrated with other synthetic techniques for porous materials such as templating, foaming, emulsion and phase separation. This article briefly overviews porous PDC monoliths with a special emphasis on those derived from porous preceramic polymer gels which are prepared via the sol-gel process accompanied by spinodal decomposition. Ceramization behaviors of Si- and Ti-based preceramic polymers are highlighted in terms of crystal transition and variation of pore properties in different length scales. (C) 2021 The Ceramic Society of Japan. All rights reserved.

DOI： 10.2109/jcersj2.21024

Web of Science

Scopus
Designing hierarchical porosity in tin oxide monoliths and their application as a solid acid catalyst Reviewed

Yoshinao Suzuki, George Hasegawa, Kazuyoshi Kanamori, Kazuki Nakanishi

New Journal of Chemistry 2021

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Language：English Publishing type：Research paper (scientific journal) Publisher：Royal Society of Chemistry ({RSC})

DOI： 10.1039/D1NJ03307G
Ferroelectricity of Dion–Jacobson layered perovskites CsNdNb2O7 and RbNdNb2O7 Reviewed

Sota Asaki, Hirofumi Akamatsu, George Hasegawa, Tomohiro Abe, Yuki Nakahira, Suguru Yoshida, Chikako Moriyoshi, Katsuro Hayashi

Japanese Journal of Applied Physics Vol. 59 ( SP ) page： SPPC04 2020.11

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Language：English Publishing type：Research paper (scientific journal) Publisher：IOP PUBLISHING LTD

Crystallography and dielectric properties in Dion-Jacobson layered perovskites, CsNdNb(2)O(7)and RbNdNb2O7, have been examined in dense polycrystalline samples, and polarization hysteresis loops that substantiate ferroelectricity have been observed at room temperature. The theoretical mechanism for the spontaneous polarization, "hybrid improper ferroelectric mechanism," induced by a combination of two types of non-polar octahedral rotations, is confirmed in these two phases. Our samples show remanent polarizations of 2-3 mu C cm(-2), which are much larger than those obtained in polycrystalline samples with the hybrid improper ferroelectricity reported so far. A dielectric constant in CsNdNb(2)O(7)exhibits an anomaly at 625 K, corresponding to the ferroelectric transition, as previously revealed by X-ray and neutron diffractometry. No dielectric anomaly is observed for RbNdNb(2)O(7)throughout the temperature range studied here (<= 773 K), which is consistent with the previous diffractometry showing the persistence of polar I2cmsymmetry up to 790 K.

DOI： 10.35848/1347-4065/abad46

Web of Science
Hierarchically Porous Monoliths Prepared via Sol–Gel Process Accompanied by Spinodal Decomposition Invited Reviewed

Xuanming Lu, George Hasegawa, Kazuyoshi Kanamori, Kazuki Nakanishi

Journal of Sol-Gel Science & Technology Vol. 95 page： 530 - 550 2020.9

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Language：English Publishing type：Research paper (scientific journal)
Gas sorption porosimetry for the evaluation of hard carbons as anodes for Li- and Na-ion batteries

Matsukawa Yuko, Linsenmann Fabian, Plass Maximilian A., Hasegawa George, Hayashi Katsuro, Fellinger Tim-Patrick

BEILSTEIN JOURNAL OF NANOTECHNOLOGY Vol. 11 page： 1217-1229 2020.8

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Language：English Publishing type：Research paper (scientific journal)

DOI： 10.3762/bjnano.11.106

Web of Science

PubMed
Reversible Electrochemical Insertion/Extraction of Magnesium Ion into/from Robust NASICON-Type Crystal Lattice in a Mg(BF4)(2)-Based Electrolyte

Hasegawa George, Akiyama Yuto, Tanaka Moeko, Ishikawa Ryo, Akamatsu Hirofumi, Ikuhara Yuichi, Hayashi Katsuro

ACS APPLIED ENERGY MATERIALS Vol. 3 ( 7 ) page： 6824-6833 2020.7

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Language：English Publishing type：Research paper (scientific journal)

DOI： 10.1021/acsaem.0c00943

Web of Science
Variation of meso- and macroporous morphologies in resorcinol-formaldehyde (RF) gels tailored via a sol-gel process combined with soft-templating and phase separation

Hasegawa George, Yano Takaya, Akamatsu Hirofumi, Hayashi Katsuro, Nakanishi Kazuki

JOURNAL OF SOL-GEL SCIENCE AND TECHNOLOGY 2020.2

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Language：English Publishing type：Research paper (scientific journal)

DOI： 10.1007/s10971-020-05236-9

Web of Science

Scopus
Thermogravimetric Evolved Gas Analysis and Microscopic Elemental Mapping of the Solid Electrolyte Interphase on Silicon Incorporated in Free-Standing Porous Carbon Electrodes

Hasegawa George, Kanamori Kazuyoshi, Nakanishi Kazuki, Hayashi Katsuro

LANGMUIR Vol. 35 ( 39 ) page： 12680-12688 2019.10

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Language：English Publishing type：Research paper (scientific journal)

DOI： 10.1021/acs.langmuir.9b02085

Web of Science

PubMed
A highly conductive Na3V2(PO4)(3) ceramic sheet prepared by tape-casting method

Wang He, Hasegawa George, Akiyama Yuto, Yamamoto Takahisa, Inoishi Atsushi, Akamatsu Hirofumi, Inada Miki, Ishihara Tatsumi, Hayashi Katsuro

ELECTROCHIMICA ACTA Vol. 305 page： 197-203 2019.5

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Language：English Publishing type：Research paper (scientific journal)

DOI： 10.1016/j.electacta.2019.03.057

Web of Science

Scopus
Characterization of an AX Compound Derived from Ti2SC MAX Phase

Hasegawa George, Kawahara Kei, Shima Kazunari, Inada Miki, Enomoto Naoya, Hayashi Katsuro

EUROPEAN JOURNAL OF INORGANIC CHEMISTRY ( 17 ) page： 2312 - 2317 2019.5

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Language：Japanese

DOI： 10.1002/ejic.201900311

Web of Science
Insights into Sodium Ion Transfer at the Na/NASICON Interface Improved by Uniaxial Compression

Uchida Yasuhiro, Hasegawa George, Shima Kazunari, Inada Miki, Enomoto Naoya, Akamatsu Hirofumi, Hayashi Katsuro

ACS APPLIED ENERGY MATERIALS Vol. 2 ( 4 ) page： 2913 - 2920 2019.4

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Language：Japanese

DOI： 10.1021/acsaem.9b00250

Web of Science
Sodium titanium oxide bronze nanoparticles synthesized via concurrent reduction and Na+-doping into TiO2(B).

Hasegawa G, Tanaka M, Vequizo JJM, Yamakata A, Hojo H, Kobayashi M, Kakihana M, Inada M, Akamatsu H, Hayashi K

Nanoscale Vol. 11 ( 3 ) page： 1442-1450 2019.1

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Language：English Publishing type：Research paper (scientific journal)

DOI： 10.1039/c8nr08372j

Scopus

PubMed
Low temperature-densified NASICON-based ceramics promoted by Na2O-Nb2O5-P2O5 glass additive and spark plasma sintering

Wang He, Okubo Keisuke, Inada Miki, Hasegawa George, Enomoto Naoya, Hayashi Katsuro

SOLID STATE IONICS Vol. 322 page： 54 - 60 2018.9

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Language：Japanese

DOI： 10.1016/j.ssi.2018.04.025

Web of Science
On-line Redox Derivatization Liquid Chromatography Using a Carbon Monolithic Column

Miyashita Ken, Tanaka Ryo, Hasegawa George, Nakanishi Kazuki, Morioka Kazuhiro, Zeng Hulie, Kato Shungo, Uchiyama Katsumi, Saitoh Kazunori, Shibukawa Masami, Nakajima Hizuru

BUNSEKI KAGAKU Vol. 67 ( 8 ) page： 469 - 478 2018.8

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Language：Japanese

Web of Science
Topotactic Synthesis of Mesoporous 12CaO center dot 7Al(2)O(3) Mesocrystalline Microcubes toward Catalytic Ammonia Synthesis

Hasegawa George, Moriya Shizuka, Inada Mild, Kitano Masaaki, Okunaka Masaaki, Yamamoto Takahisa, Matsukawa Yuko, Nishimi Kazuma, Shima Kazunari, Enomoto Naoya, Matsuishi Satoru, Hosono Hideo, Hayashi Katsuro

CHEMISTRY OF MATERIALS Vol. 30 ( 14 ) page： 4498-4502 2018.7

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Language：English Publishing type：Research paper (scientific journal)

DOI： 10.1021/acs.chemmater.8b01819

Web of Science

Scopus
A dense NASICON sheet prepared by tape-casting and low temperature sintering

Okubo Keisuke, Wang He, Hayashi Katsuro, Inada Miki, Enomoto Naoya, Hasegawa George, Osawa Takashi, Takamura Hitoshi

ELECTROCHIMICA ACTA Vol. 278 page： 176 - 181 2018.7

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Language：Japanese

DOI： 10.1016/j.electacta.2018.05.020

Web of Science
Comprehensive studies on phosphoric acid treatment of porous titania toward titanium phosphate and pyrophosphate monoliths with pore hierarchy and a nanostructured pore surface

Zhu Yang, Hasegawa George, Kanamori Kazuyoshi, Nakanishi Kazuki

INORGANIC CHEMISTRY FRONTIERS Vol. 5 ( 6 ) page： 1397 - 1404 2018.6

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Language：Japanese

DOI： 10.1039/c8qi00146d

Web of Science
Nanostructured titanium phosphates prepared via hydrothermal reaction and their electrochemical Li- and Na-ion intercalation properties

Zhu Y., Hasegawa G., Kanamori K., Kiyomura T., Kurata H., Hayashi K., Nakanishi K.

CRYSTENGCOMM Vol. 19 ( 31 ) page： 4551 - 4560 2017.8

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Language：Japanese

DOI： 10.1039/c7ce01123g

Web of Science
Highly Flexible Hybrid Polymer Aerogels and Xerogels Based on Resorcinol-Formaldehyde with Enhanced Elastic Stiffness and Recoverability: Insights into the Origin of Their Mechanical Properties

Hasegawa George, Shimizu Taiyo, Kanamori Kazuyoshi, Maeno Ayaka, Kaji Hironori, Nakanishi Kazuki

CHEMISTRY OF MATERIALS Vol. 29 ( 5 ) page： 2122 - 2134 2017.3

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Language：Japanese

DOI： 10.1021/acs.chemmater.6b04706

Web of Science
Amine/Hydrido Bifunctional Nanoporous Silica with Small Metal Nanoparticles Made Onsite: Efficient Dehydrogenation Catalyst.

Zhu Y, Nakanishi T, Kanamori K, Nakanishi K, Ichii S, Iwaida K, Masui Y, Kamei T, Shimada T, Kumamoto A, Ikuhara YH, Jeon M, Hasegawa G, Tafu M, Yoon CW, Asefa T

ACS applied materials & interfaces Vol. 9 ( 1 ) page： 36-41 2017.1

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Language：English Publishing type：Research paper (scientific journal)

DOI： 10.1021/acsami.6b12972

PubMed
Studies on electrochemical sodium storage into hard carbons with binder-free monolithic electrodes

Hasegawa George, Kanamori Kazuyoshi, Kannari Naokatsu, Ozaki Jun-ichi, Nakanishi Kazuki, Abe Takeshi

JOURNAL OF POWER SOURCES Vol. 318 page： 41 - 48 2016.6

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Language：Japanese

DOI： 10.1016/j.jpowsour.2016.04.013

Web of Science
Hierarchically Porous Carbon Monoliths Comprising Ordered Mesoporous Nanorod Assemblies for High-Voltage Aqueous Supercapacitors

Hasegawa George, Kanamori Kazuyoshi, Kiyomura Tsutomu, Kurata Hiroki, Abe Takeshi, Nakanishi Kazuki

CHEMISTRY OF MATERIALS Vol. 28 ( 11 ) page： 3944 - 3950 2016.6

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Language：Japanese

DOI： 10.1021/acs.chemmater.6b01261

Web of Science
Infiltrated porous oxide monoliths as high lithium transference number electrolytes

Popovic Jelena, Hasegawa George, Moudrakovski Igor, Maier Joachim

JOURNAL OF MATERIALS CHEMISTRY A Vol. 4 ( 19 ) page： 7135 - 7140 2016

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Language：Japanese

DOI： 10.1039/c6ta01826b

Web of Science
Hard Carbon Anodes for Na-Ion Batteries: Toward a Practical Use

Hasegawa George, Kanamori Kazuyoshi, Kannari Naokatsu, Ozaki Jun-ichi, Nakanishi Kazuki, Abe Takeshi

CHEMELECTROCHEM Vol. 2 ( 12 ) page： 1917 - 1920 2015.12

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Language：Japanese

DOI： 10.1002/celc.201500412

Web of Science
High-performance liquid chromatography separation of unsaturated organic compounds by a monolithic silica column embedded with silver nanoparticles

Zhu Yang, Morisato Kei, Hasegawa George, Moitra Nirmalya, Kiyomura Tsutomu, Kurata Hiroki, Kanamori Kazuyoshi, Nakanishi Kazuki

JOURNAL OF SEPARATION SCIENCE Vol. 38 ( 16 ) page： 2841 - 2847 2015.8

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Language：Japanese

DOI： 10.1002/jssc.201500444

Web of Science
High-Level Doping of Nitrogen, Phosphorus, and Sulfur into Activated Carbon Monoliths and Their Electrochemical Capacitances

Hasegawa George, Deguchi Takeru, Kanamori Kazuyoshi, Kobayashi Yoji, Kageyama Hiroshi, Abe Takeshi, Nakanishi Kazuki

CHEMISTRY OF MATERIALS Vol. 27 ( 13 ) page： 4703 - 4712 2015.7

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Language：Japanese

DOI： 10.1021/acs.chemmater.5b01349

Web of Science
Effect of Calcination Conditions on Porous Reduced Titanium Oxides and Oxynitrides via a Preceramic Polymer Route (vol 54, pg 2802, 2015)

Hasegawa George, Sato Tatsuya, Kanamori Kazuyoshi, Sun Cheng-Jun, Ren Yang, Kobayashi Yoji, Kageyama Hiroshi, Abe Takeshi, Nakanishi Kazuki

INORGANIC CHEMISTRY Vol. 54 ( 11 ) page： 5614 - 5614 2015.6

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Language：Japanese

DOI： 10.1021/acs.inorgchem.5b00810

Web of Science
Effect of Calcination Conditions on Porous Reduced Titanium Oxides and Oxynitrides via a Preceramic Polymer Route

Hasegawa George, Sato Tatsuya, Kanamori Kazuyoshi, Sun Cheng-Jun, Ren Yang, Kobayashi Yoji, Kageyama Hiroshi, Abe Takeshi, Nakanishi Kazuki

INORGANIC CHEMISTRY Vol. 54 ( 6 ) page： 2802 - 2808 2015.3

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Language：Japanese

DOI： 10.1021/ic502972v

Web of Science
Ultralow-Density, Transparent, Superamphiphobic Boehmite Nanofiber Aerogels and Their Alumina Derivatives

Hayase Gen, Nonomura Kazuya, Hasegawa George, Kanamori Kazuyoshi, Nakanishi Kazuki

CHEMISTRY OF MATERIALS Vol. 27 ( 1 ) page： 3 - 5 2015.1

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Language：Japanese

DOI： 10.1021/cm503993n

Web of Science
Hierarchically Porous Li4Ti5O12 Anode Materials for Li- and Na-Ion Batteries: Effects of Nanoarchitectural Design and Temperature Dependence of the Rate Capability

Hasegawa George, Kanamori Kazuyoshi, Kiyomura Tsutomu, Kurata Hiroki, Nakanishi Kazuki, Abe Takeshi

ADVANCED ENERGY MATERIALS Vol. 5 ( 1 ) 2015.1

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Language：Japanese

DOI： 10.1002/aenm.201400730

Web of Science
Impact of Electrolyte on Pseudocapacitance and Stability of Porous Titanium Nitride (TiN) Monolithic Electrode

Hasegawa George, Kitada Atsushi, Kawasaki Shota, Kanamori Kazuyoshi, Nakanishi Kazuki, Kobayashi Yoji, Kageyama Hiroshi, Abe Takeshi

JOURNAL OF THE ELECTROCHEMICAL SOCIETY Vol. 162 ( 1 ) page： A77 - A85 2015

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Language：Japanese

DOI： 10.1149/2.0491501jes

Web of Science
Porous chromium-based ceramic monoliths: oxides (Cr2O3), nitrides (CrN), and carbides (Cr3C2)

Kido Yasuki, Hasegawa George, Kanamori Kazuyoshi, Nakanishi Kazuki

JOURNAL OF MATERIALS CHEMISTRY A Vol. 2 ( 3 ) page： 745 - 752 2014

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Language：Japanese

DOI： 10.1039/c3ta13725b

Web of Science
Synthesis and electrochemical performance of hierarchically porous N-doped TiO2 for Li-ion batteries

Hasegawa George, Sato Tatsuya, Kanamori Kazuyoshi, Nakanishi Kazuki, Abe Takeshi

NEW JOURNAL OF CHEMISTRY Vol. 38 ( 4 ) page： 1380 - 1384 2014

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Language：Japanese

DOI： 10.1039/c3nj01332d

Web of Science
Reduction on reactive pore surfaces as a versatile approach to synthesize monolith-supported metal alloy nanoparticles and their catalytic applications

Moitra Nirmalya, Kanamori Kazuyoshi, Ikuhara Yumi H., Gao Xiang, Zhu Yang, Hasegawa George, Takeda Kazuyuki, Shimada Toyoshi, Nakanishi Kazuki

JOURNAL OF MATERIALS CHEMISTRY A Vol. 2 ( 31 ) page： 12535 - 12544 2014

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Language：Japanese

DOI： 10.1039/c4ta01767f

Web of Science
A Superamphiphobic Macroporous Silicone Monolith with Marshmallow-like Flexibility

Hayase Gen, Kanamori Kazuyoshi, Hasegawa George, Maeno Ayaka, Kaji Hironori, Nakanishi Kazuki

ANGEWANDTE CHEMIE-INTERNATIONAL EDITION Vol. 52 ( 41 ) page： 10788 - 10791 2013.10

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DOI： 10.1002/anie.201304169

Web of Science
Hierarchically Porous Monoliths Based on N-Doped Reduced Titanium Oxides and Their Electric and Electrochemical Properties

Hasegawa George, Sato Tatsuya, Kanamori Kazuyoshi, Nakano Kousuke, Yajima Takeshi, Kobayashi Yoji, Kageyama Hiroshi, Abe Takeshi, Nakanishi Kazuki

CHEMISTRY OF MATERIALS Vol. 25 ( 17 ) page： 3504 - 3512 2013.9

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DOI： 10.1021/cm401933a

Web of Science
Hierarchically porous monoliths of oxygen-deficient anatase TiO2-x with electronic conductivity

Kitada Atsushi, Hasegawa George, Kobayashi Yoji, Miyazaki Kohei, Abe Takeshi, Kanamori Kazuyoshi, Nakanishi Kazuki, Kageyama Hiroshi

RSC ADVANCES Vol. 3 ( 20 ) page： 7205 - 7208 2013

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DOI： 10.1039/c3ra40545a

Web of Science
New Li2FeSiO4-carbon monoliths with controlled macropores: effects of pore properties on electrode performance

Hasegawa George, Sannohe Mai, Ishihara Yuya, Kanamori Kazuyoshi, Nakanishi Kazuki, Abe Takeshi

PHYSICAL CHEMISTRY CHEMICAL PHYSICS Vol. 15 ( 22 ) page： 8736 - 8743 2013

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DOI： 10.1039/c3cp50352f

Web of Science
Hierarchically Porous Monoliths of Oxygen-deficient Anatase TiO2-x with Electronic Conductivity (vol 3, pg 7205, 2013)

Kitada Atsushi, Hasegawa George, Kobayashi Yoji, Miyazaki Kohei, Abe Takeshi, Kanamori Kazuyoshi, Nakanishi Kazuki, Kageyama Hiroshi

RSC ADVANCES Vol. 3 ( 48 ) page： 26475 - 26475 2013

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Web of Science
New Insights into the Relationship between Micropore Properties, Ionic Sizes, and Electric Double-Layer Capacitance in Monolithic Carbon Electrodes

Hasegawa George, Kanamori Kazuyoshi, Nakanishi Kazuki, Abe Takeshi

JOURNAL OF PHYSICAL CHEMISTRY C Vol. 116 ( 50 ) page： 26197 - 26203 2012.12

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DOI： 10.1021/jp309010p

Web of Science
Selective Preparation of Macroporous Monoliths of Conductive Titanium Oxides TinO2n-1 (n=2, 3, 4, 6)

Kitada Atsushi, Hasegawa George, Kobayashi Yoji, Kanamori Kazuyoshi, Nakanishi Kazuki, Kageyama Hiroshi

JOURNAL OF THE AMERICAN CHEMICAL SOCIETY Vol. 134 ( 26 ) page： 10894 - 10898 2012.7

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DOI： 10.1021/ja302083n

Web of Science
Facile preparation of macroporous graphitized carbon monoliths from iron-containing resorcinol-formaldehyde gels

Hasegawa George, Kanamori Kazuyoshi, Nakanishi Kazuki

MATERIALS LETTERS Vol. 76 page： 1 - 4 2012.6

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DOI： 10.1016/j.matlet.2012.02.069

Web of Science
Pore properties of hierarchically porous carbon monoliths with high surface area obtained from bridged polysilsesquioxanes

Hasegawa George, Kanamori Kazuyoshi, Nakanishi Kazuki

MICROPOROUS AND MESOPOROUS MATERIALS Vol. 155 page： 265 - 273 2012.6

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DOI： 10.1016/j.micromeso.2012.02.001

Web of Science
Flower-like surface modification of titania materials by lithium hydroxide solution

Hasegawa George, Kanamori Kazuyoshi, Sugawara Yoshihiro, Ikuhara Yuichi, Nakanishi Kazuki

JOURNAL OF COLLOID AND INTERFACE SCIENCE Vol. 374 page： 291 - 296 2012.5

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DOI： 10.1016/j.jcis.2012.02.002

Web of Science
New Monolithic Capillary Columns with Well-Defined Macropores Based on Poly(styrene-co-divinylbenzene)

Hasegawa George, Kanamori Kazuyoshi, Ishizuka Norio, Nakanishi Kazuki

ACS APPLIED MATERIALS & INTERFACES Vol. 4 ( 5 ) page： 2343 - 2347 2012.5

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DOI： 10.1021/am300552q

Web of Science
Facile Preparation of Monolithic LiFePO4/Carbon Composites with Well-Defined Macropores for a Lithium-Ion Battery

Hasegawa George, Ishihara Yuya, Kanamori Kazuyoshi, Miyazaki Kohei, Yamada Yuki, Nakanishi Kazuki, Abe Takeshi

CHEMISTRY OF MATERIALS Vol. 23 ( 23 ) page： 5208 - 5216 2011.12

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DOI： 10.1021/cm2021438

Web of Science
New hierarchically porous titania monoliths for chromatographic separation media

Hasegawa George, Morisato Kei, Kanamori Kazuyoshi, Nakanishi Kazuki

JOURNAL OF SEPARATION SCIENCE Vol. 34 ( 21 ) page： 3004 - 3010 2011.11

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DOI： 10.1002/jssc.201100538

Web of Science
Preparation of Hierarchically Porous Nanocrystalline CaTiO3, SrTiO3 and BaTiO3 Perovskite Monoliths

Ruzimuradov Olim, Hasegawa George, Kanamori Kazuyoshi, Nakanishi Kazuki

JOURNAL OF THE AMERICAN CERAMIC SOCIETY Vol. 94 ( 10 ) page： 3335 - 3339 2011.10

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DOI： 10.1111/j.1551-2916.2011.04613.x

Web of Science
Fabrication of highly crosslinked methacrylate-based polymer monoliths with well-defined macropores via living radical polymerization

Hasegawa George, Kanamori Kazuyoshi, Nakanishi Kazuki, Yamago Shigeru

POLYMER Vol. 52 ( 21 ) page： 4644 - 4647 2011.9

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DOI： 10.1016/j.polymer.2011.08.028

Web of Science
Facile preparation of monolithic magnesium titanates with hierarchical porosity

Ruzimuradov Olim N., Hasegawa George, Kanamori Kazuyoshi, Nakanishi Kazuki

JOURNAL OF THE CERAMIC SOCIETY OF JAPAN Vol. 119 ( 1390 ) page： 440 - 444 2011.6

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DOI： 10.2109/jcersj2.119.440

Web of Science
Hierarchically Porous Carbon Monoliths with High Surface Area from Bridged Poly(silsesquioxane) without Thermal Activation Process

Hasegawa G., Kanamori K., Nakanishi K., Hanada T.

3RD INTERNATIONAL CONGRESS ON CERAMICS (ICC): NOVEL CHEMICAL PROCESSING SOL-GEL AND SOLUTION-BASED PROCESSING Vol. 18 2011

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DOI： 10.1088/1757-899X/18/3/032005

Web of Science
Monolithic electrode for electric double-layer capacitors based on macro/meso/microporous S-Containing activated carbon with high surface area

Hasegawa George, Aoki Mami, Kanamori Kazuyoshi, Nakanishi Kazuki, Hanada Teiichi, Tadanaga Kiyoharu

JOURNAL OF MATERIALS CHEMISTRY Vol. 21 ( 7 ) page： 2060 - 2063 2011

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DOI： 10.1039/c0jm03793a

Web of Science
Facile Preparation of Hierarchically Porous TiO2 Monoliths

Hasegawa George, Kanamori Kazuyoshi, Nakanishi Kazuki, Hanada Teiichi

JOURNAL OF THE AMERICAN CERAMIC SOCIETY Vol. 93 ( 10 ) page： 3110 - 3115 2010.10

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DOI： 10.1111/j.1551-2916.2010.03831.x

Web of Science
Fabrication of activated carbons with well-defined macropores derived from sulfonated poly(divinylbenzene) networks

Hasegawa George, Kanamori Kazuyoshi, Nakanishi Kazuki, Hanada Teiichi

CARBON Vol. 48 ( 6 ) page： 1757 - 1766 2010.5

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DOI： 10.1016/j.carbon.2010.01.019

Web of Science
A New Route to Monolithic Macroporous SiC/C Composites from Biphenylene-bridged Polysilsesquioxane Gels

Hasegawa George, Kanamori Kazuyoshi, Nakamshi Kazuki, Hanada Teiichi

CHEMISTRY OF MATERIALS Vol. 22 ( 8 ) page： 2541 - 2547 2010.4

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DOI： 10.1021/cm9034616

Web of Science
Facile preparation of transparent monolithic titania gels utilizing a chelating ligand and mineral salts

Hasegawa George, Kanamori Kazuyoshi, Nakanishi Kazuki, Hanada Teiichi

JOURNAL OF SOL-GEL SCIENCE AND TECHNOLOGY Vol. 53 ( 1 ) page： 59 - 66 2010.1

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DOI： 10.1007/s10971-009-2056-5

Web of Science
Hierarchically porous carbon monoliths with high surface area from bridged polysilsesquioxanes without thermal activation process

Hasegawa George, Kanamori Kazuyoshi, Nakanishi Kazuki, Hanada Teiichi

CHEMICAL COMMUNICATIONS Vol. 46 ( 42 ) page： 8037 - 8039 2010

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DOI： 10.1039/c0cc02974b

Web of Science
Macro- and microporous carbon monoliths with high surface areas pyrolyzed from poly(divinylbenzene) networks

Hasegawa Joji, Kanamori Kazuyoshi, Nakanishi Kazuki, Hanada Teiichi

COMPTES RENDUS CHIMIE Vol. 13 ( 1-2 ) page： 207 - 211 2010

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DOI： 10.1016/j.crci.2009.04.003

Web of Science
Rigid Crosslinked Polyacrylamide Monoliths with Well-Defined Macropores Synthesized by Living Polymerization

Hasegawa Joji, Kanamori Kazuyoshi, Nakanishi Kazuki, Hanada Teiichi, Yamago Shigeru

MACROMOLECULAR RAPID COMMUNICATIONS Vol. 30 ( 12 ) page： 986 - 990 2009.6

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DOI： 10.1002/marc.200900066

Web of Science
Pore Formation in Poly(divinylbenzene) Networks Derived from Organotellurium-Mediated Living Radical Polymerization

Hasegawa Joji, Kanamori Kazuyoshi, Nakanishi Kazuki, Hanada Teiichi, Yamago Shigeru

MACROMOLECULES Vol. 42 ( 4 ) page： 1270 - 1277 2009.2

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DOI： 10.1021/ma802343a

Web of Science
Fabrication of macroporous silicon carbide ceramics by intramolecular carbothermal reduction of phenyl-bridged polysilsesquioxane

Hasegawa George, Kanamori Kazuyoshi, Nakanishi Kazuki, Hanada Teiichi

JOURNAL OF MATERIALS CHEMISTRY Vol. 19 ( 41 ) page： 7716 - 7720 2009

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DOI： 10.1039/b913992c

Web of Science
Preparation of Macroporous Poly(divinylbenzene) Gels Via Living Radical Polymerization

Hasegawa Joji, Kanamori Kazuyoshi, Nakanishi Kazuki, Hanada Teiichi, Yamago Shigeru

POLYMER-BASED SMART MATERIALS - PROCESSES, PROPERTIES AND APPLICATION Vol. 1134 page： 139 - + 2009

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Web of Science
Facile Synthesis of Macroporous Cross-Linked Methacrylate Gels by Atom Transfer Radical Polymerization

Kanamori Kazuyoshi, Hasegawa Joji, Nakanishi Kazuki, Hanada Tefichi

MACROMOLECULES Vol. 41 ( 19 ) page： 7186 - 7193 2008.10

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DOI： 10.1021/ma800563p

Web of Science

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Books 8

Encyclopedia of Polymer Science and Technology Reviewed

Kazuyoshi Kanamori, George Hasaegawa, Kazuki Nakanishi（ Role： Contributor , Hirarchically Porous Polymer and Carbon Monoliths via Controlled/Living Radical Polymerization）

Wiley-VCH 2021.6

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Responsible for pages：pst672 Language：English Book type：Scholarly book
炭素材料の研究開発動向 2022

長谷川丈二（ Role： Contributor , 第1編ポーラスカーボン材料の新展開 1.1 多孔質カーボンモノリスの細孔構造制御とヘテロ原子の導入）

CPC研究会 2022.5
発泡樹脂、多孔性樹脂の高強度化と応用技術

長谷川丈二（ Role： Sole author , 第４章多孔性ポリマーの作製と応用: 4節多孔性フェノール樹脂の微細構造制御と力学特性）

技術情報協会 2018.3
炭素材料化学の進展

長谷川丈二（ Role： Sole author , 第3章蓄電デバイス用炭素の進展~フェノール樹脂由来ハードカーボンのナトリウムイオン吸蔵特性）

日本学術振興会炭素材料117委員会 2018
ゾル－ゲルテクノロジーの最新動向

長谷川丈二（ Role： Sole author , 第36章カーボン材料の設計と電気化学特性評価）

シーエムシー出版 2017
Sol–Gel Processing of Porous Materials

K. Nakanishi, K. Kanamori, Y. Tokudome, G. Hasegawa, Y. Zhu（ Role： Joint author）

Wiley-VCH 2017

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Language：English Book type：Scholarly book
ゾルーゲル法の最新応用と展望

中西和樹、長谷川丈二（ Role： Joint author , 第２章　４.相分離と化学反応に基づく細孔構造制御）

シーエムシー出版 2014
Studies on Porous Monolithic Materials Prepared via Sol–Gel Processes

George Hasegawa（ Role： Sole author）

Springer 2012

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Language：English Book type：Scholarly book

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MISC 14

熱分解に誘起される相分離を利用した多孔質マイエナイトの形態・細孔特性制御

長谷川丈二

Journal of the Society of Inorganic Materials, Japan Vol. 31 page： 127 - 132 2024.5
熱分解に誘起される相分離を利用した多孔質セラミックス多面体粒子の作製

長谷川丈二

粉体および粉末冶金 Vol. 71 page： 161 - 166 2024.5
相分離を用いたセラミックス多面体粒子の多孔質化

長谷川丈二

化学と工業 Vol. 77 page： 295 2024.4
相分離を用いた多孔質材料の開発および機能開拓

長谷川丈二

東海化学工業会会報 Vol. 319 page： 2 - 7 2023.7
相分離法によるリン酸塩モノリス材料の細孔構造制御

長谷川丈二, 中西和樹

セラミックス Vol. 57 page： 329 - 333 2022.5

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Authorship：Lead author
階層的多孔構造を有するモノリス多孔体 Invited

Adsorption News Vol. 35 page： 5 - 13 2022.1

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Language：Japanese Publishing type：Article, review, commentary, editorial, etc. (scientific journal)
リン酸チタン化合物の形態制御と電気化学的イオン吸蔵特性

長谷川丈二、中西和樹

セラミックス Vol. 56 page： 132 - 135 2021

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Authorship：Lead author,　Corresponding author Language：Japanese
Ti系セラミックス多孔体の細孔構造制御と電極材料への転換

長谷川丈二、中西和樹

セラミックス Vol. 55 page： 395 - 398 2020

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Characterization of an AX Compound Derived from Ti2SC MAX Phase Reviewed

Hasegawa George, Kawahara Kei, Shima Kazunari, Inada Miki, Enomoto Naoya, Hayashi Katsuro

EUROPEAN JOURNAL OF INORGANIC CHEMISTRY ( 17 ) page： 2312-2317 2019.5

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Language：English

DOI： 10.1002/ejic.201900311

Web of Science
Insights into Sodium Ion Transfer at the Na/NASICON Interface Improved by Uniaxial Compression Reviewed

Uchida Yasuhiro, Hasegawa George, Shima Kazunari, Inada Miki, Enomoto Naoya, Akamatsu Hirofumi, Hayashi Katsuro

ACS APPLIED ENERGY MATERIALS Vol. 2 ( 4 ) page： 2913-2920 2019.4

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DOI： 10.1021/acsaem.9b00250

Web of Science
モノリス型多孔質電極を用いた非晶質カーボンの電気化学特性評価

長谷川丈二

ファインケミカル Vol. 48 page： 13 - 20 2019

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Authorship：Lead author,　Corresponding author Language：Japanese
固くて柔軟な多孔質高分子材料

長谷川丈二

機能材料 Vol. 37 page： 57 - 65 2017

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多孔性チタニアモノリスの作製と表面微細構造の構築

長谷川丈二

セラミックス Vol. 52 page： 488 - 489 2017

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Authorship：Lead author,　Corresponding author Language：Japanese
伝導性を有するチタン酸化物モノリス

北田敦、長谷川丈二、陰山洋

機能材料 Vol. 32 page： 44 - 49 2012

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KAKENHI (Grants-in-Aid for Scientific Research) 6

資源制約フリーなナトリウムイオン電池の開発

Grant number：JPMJGX23S4 2023.10 - 2028.3

科学技術振興機構（JST) 革新的GX技術創出事業（GteX）

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Authorship：Coinvestigator(s)
分子設計と細孔構造制御によるハード柔軟多孔体の創出

2021.4

科学技術振興機構（JST) 創発的研究支援事業（FOREST)

長谷川丈二

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Authorship：Principal investigator
熱分解に誘起されるセラミックス単結晶粒子の相分離

2019.6 - 2021.3

科学研究費補助金挑戦的研究(萌芽)

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Authorship：Principal investigator
Na伝導性ポリアニオン化物のシナジー設計による革新固体イオニクス・デバイス創製

2019.4 - 2023.3

科学研究費補助金基盤研究(A)

林　克郎

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Authorship：Coinvestigator(s)
トップダウン製法による薄片状Siナノ粒子の高容量リチウムイオン電池負極への展開

2016.4 - 2019.3

科学研究費補助金基盤研究(C)

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Authorship：Principal investigator
多孔性カーボンモノリスへのヘテロ原子の導入と新規電極材料への応用

2014.4 - 2016.3

科学研究費補助金若手研究(B)

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Authorship：Principal investigator

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Industrial property rights 5

低密度ゲル体とその製造方法

長谷川丈二, 中西和樹, 金森主祥

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Application no：特願2017-019933 Date applied：2017.2

Country of applicant：Domestic
放熱構造体とその製造法

水口博義, 長谷川丈二, 中西和樹

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Application no：特願2014-209547 Date applied：2014.10

Patent/Registration no：特許6524461号 Date registered：2019.5

Country of applicant：Domestic
カラム充填剤、カラム、及びカラムシステム

中嶋秀, 宮下賢, 内山一美, 渋川雅美, 斉藤和憲, 長谷川丈二, 中西和樹

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Application no：特願2013-241263 Date applied：2013.11

Country of applicant：Domestic
ポリシロキサン多孔体とその製造方法

中西和樹, 早瀬元, 金森主祥, 長谷川丈二

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Application no：特願2013-181138 Date applied：2013.9

Patent/Registration no：特許第6300261号 Date registered：2018.3

Country of applicant：Domestic
マクロ多孔性チタン化合物モノリスとその製造方法

陰山洋, 中西和樹, 小林洋治, 北田敦, 長谷川丈二

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Application no：特願2014-500117 Date applied：2013.2

Announcement no：WO2013/121801

Patent/Registration no：特許第5986187号 Date registered：2017.8

Country of applicant：Domestic

To the head of Industrial property rights.▲

Teaching Experience (On-campus) 29

Advanced Porous Materials Chemistry

2025
Fundamentals of Solide State Chemistry

2025
[G30]Chemistry and Biotechnology Laboratory 1

2025
Inorganic Chemistry 3

2025
Chemistry and Biotechnology Laboratory 1

2025
Inorganic Chemistry 3

2024
Advanced Functional Materials Engineering

2024
Advanced Porous Materials Chemistry

2024
Fundamentals of Solide State Chemistry

2024
Chemistry and Biotechnology Laboratory 4

2024
Advanced Functional Materials Engineering

2023
Inorganic Chemistry 3

2023
Chemistry and Biotechnology Laboratory 4

2023
Safety in Laboratory

2023
Advanced Porous Materials Chemistry

2022
Advanced Functional Materials Engineering

2022
Fundamentals of Solide State Chemistry

2022
Chemistry of Inorganic Reaction

2022
Chemistry of Inorganic Reaction

2022
Advanced Porous Materials Chemistry

2021
Chemistry and Biotechnology Laboratory 1

2021
Fundamentals of Solide State Chemistry

2021
Chemistry of Inorganic Reaction

2021
固体化学基礎論

2020
無機合成化学

2020
化学生命工学実験１

2020
化学生命工学実験４

2020
実験安全学

2020
化学生命工学実験４

2019

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To the head of Teaching Experience (On-campus).▲

Social Contribution 1

豊西総合大学講座

Role(s)：Lecturer

愛知県立豊田西高等学校愛知県立豊田西高等学校 2020.11

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Audience： High school students

Type：Visiting lecture

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