論文

(57)

Sawako Mori, Takahito Obora, Mizuka Namaki, Mitsuru Kondo, and Makoto Moriya*

"Organic Crystalline Solid Electrolytes with High Mg-Ion Conductivity Composed of Nonflammable Ionic Liquid Analogs and Mg(TFSA)2"

Inorganic Chemistry (2022) DOI: 10.1021/acs.inorgchem.2c00307

(56)

Ohyama, Junya; Moriya, Makoto; Takahama, Ryo; Kamoi, Kazuki; Kawashima, Shin; Kojima, Ryoichi; Hayakawa, Teruaki; Nabae, Yuta*

"High Durability of a Fourteen-Membered Hexaaza Macrocyclic Fe Complex for Acidic Oxygen Reduction Reaction Revealed by In Situ XAS Analysis"

JACS-Au, 1, 1798-1804 (2022).

(55)

Ryoma Sasaki,* Makoto Moriya, Yuki Watanabe, Kazunori Nishio, Taro Hitosugi, Yoshitaka Tateyama*

"Peculiarly fast Li-ion conduction mechanism in a succinonitrile-based molecular crystal electrolyte: a molecular dynamics study "

Journal of Materials Chemistry A, 9, 14897-14903 (2021).

(54)

Takaaki Ota, Shota Uchiyama, Keiichi Tsukada, Makoto Moriya*

“Room-Temperature Mg-Ion Conduction through Molecular Crystal Mg{N(SO₂CF₃)₂}₂(CH₃OC₅H₉)₂”

Frontiers in Energy Research, 9, 640777 (2021).

(53)

Kenjiro Tanaka, Yusuke Tago, Mitsuru Kondo, Yuki Watanabe, Kazunori Nishio, Taro Hitosugi*, Makoto Moriya*

“High Li-Ion Conductivity in Li{N(SO₂F)₂}(NCCH₂CH₂CN)₂ Molecular Crystal”

Nano Letters, 20, 8200–8204 (2020).

(52)

Makoto Moriya, Ryo Takahama, Kazuki Kamoi, Junya Ohyama, Shin Kawashima, Ryoichi Kojima, Mariko Okada, Teruaki Hayakawa, Yuta Nabae*

“Fourteen-Membered Macrocyclic Fe Complexes Inspired by FeN₄-Center-Embedded Graphene for Oxygen Reduction Catalysis”

The Journal of Physical Chemistry C, 124, 20730-735 (2020).

(51)

Yui Oki, Makoto Moriya*

“Synthesis of an Adduct-Type Organic Ionic Crystal with Solid-State Ionic Conductivity from A Thiocyanate-Based Ionic Liquid and B(C₆F₅)₃”

Crystals, 9, 567 (2019).

(50)

Makoto Moriya*, Daiki Kato, Yoshiko Hayakawa, Wataru Sakamoto, Toshinobu Yogo

“Crystal Structure and Solid State Ionic Conductivity of Molecular Crystal Composed of Lithium Bis(trifluoromethanesulfonyl)amide and 1,2-Dimethoxybenzene in a 1:1 Molar Ratio”

Solid State Ionics, 285, 29-32 (2016).

(49)

Wataru Sakamoto*, Narimichi Makino, Takeshi Katayama, Makoto Moriya, Toshinobu Yogo

“Improvement of the Ferroelectric Properties of Chemically Synthesized Bi_1/2Na_1/2TiO₃ Thin Films via Mn Doping”

Ferroelectrics, 479, 56-63 (2015).

(48)

Narimichi Makino, Bong-Yeon Lee, Makoto Moriya, Wataru Sakamoto*, Takashi Iijima, Toshinobu Yogo

“Synthesis and Properties of Mn-Doped (Bi_0.5Na_0.5)TiO₃ Thin Films by Chemical Solution Deposition”

Key Engineering Materials, 582, 59-62 (2014).

(47)

Kenji Yoshida, Wataru Sakamoto*, Makoto Moriya, Toshinobu Yogo

“Photoinduced Electrical Properties of Mn-Doped BiFeO₃ Thin Films Prepared by Chemical Solution Deposition”

Japanese Journal of Applied Physics, 53, 09PA17 (2014).

(46)

Makoto Moriya*, Kuniyoshi Nomura, Wataru Sakamoto, Toshinobu Yogo

“Precisely Controlled Supramolecular Ionic Conduction Paths and Their Structure-Conductivity Relationships for Lithium Ion Transport”

CrystEngComm, 16, 10512-10518 (2014).

(45)

Makoto Moriya*, Takaaki Watanabe, Shohei Nabeno, Wataru Sakamoto, Toshinobu Yogo*

“Crystal Structure and Solid-state Ionic Conductivity of Cyclic Sulfonylamide Salts with Cyano-substituted Quaternary Ammonium Cations”

Chemistry Letters, 43, 108-110 (2014).

(44)

Makoto Moriya*, Daiki Kato, Wataru Sakamoto, Toshinobu Yogo*

“Structural Design of Ionic Conduction Paths in Molecular Crystals for Selective and Enhanced Lithium Ion Conduction”

Chemistry A European Journal, 19, 13554-13560 (2013).

(43)

Wataru Sakamoto*, Narimichi Makino, Bong-Yeon Lee, Takeshi Iijima, Makoto Moriya, Toshinobu Yogo

“Influence of Volatile Element Composition and Mn Doping on The Electrical Properties of Lead-Free Piezoelectric (Bi_0.5Na_0.5)TiO₃ Thin Films”

Sensors Actuators A: Physical, 200, 60-67 (2013).

(42)

Hiroki Ichikawa, Wataru Sakamoto, Yoshikazu Akiyama, Hiroshi Maiwa, Makoto Moriya, Toshinobu yogo

“Fabrication and Characterization of (100), (001)-Oriented Reduction Resistant Lead-Free Piezoelectric (Ba, Ca)TiO₃ Ceramics Using Platelike Seed Crystals”

Japanese Journal of Applied Physics, 52, 09KD08 (2013).

(41)

Yoshikatsu Kawabata, Wataru Sakamoto*, Kenji Yoshida, Takashi Iijima, Makoto Moriya, Toshinobu Yogo

“Synthesis and Characterization of Multiferroic Pb(Zr, Ti)O₃/CoFe₂O₄/Pb(Zr,Ti)O₃ Layered Composite Thin Films by Chemical Solution Deposition”

Journal of the Ceramic Society of Japan, 121, 614-618 (2013).

(40)

Yuya Ito, Makoto Moriya, Wataru Sakamoto*, Toshinobu Yogo

“Ferroelectric Properties Improvement of Mn-doped 0.7BiFeO₃-0.3BaTiO₃ Thin Films Fabricated by Chemical Solution Deposition”

Key Engineering Materials, 533, 159-162 (2013).

(39)

Yuya Ito, Wataru Sakamoto*, Makoto Moriya, Toshinobu Yogo

“Synthesis and Properties of Multiferroic 0.7BiFeO₃-0.3BaTiO₃ Thin Films by Mn Doping”

Ceramic International, 39, S451-S455 (2013).

(38)

Narimichi Makino, Wataru Sakamoto*, Kenji Yoshida, Makoto Moriya, Toshinobu Yogo

“Photocurrent Properties of BiFeO₃ Thin Films Prepared by Chemical Solution Deposition”

Ferroelectrics, 453, 20-25 (2013).

(37)

Makoto Moriya*, Hiro Kitaguchi, Eiji Nishibori, Hiroshi Sawa, Wataru Sakamoto, Toshinobu Yogo*

“Molecular Ionics in Supramolecular Assemblies with Channel Structures Containing Lithium Ions”

Chemistry A European Journal, 18, 15305-15309 (2012).

(36)

Takumi Matsuda, Wataru Sakamoto*, Bong-Yeon Lee, Takashi Iijima, Jun Kumagai, Makoto Moriya, Toshinobu Yogo

“Electrical Properties of Lead-Free Ferroelectric Mn-Doped K_0.5Na_0.5NbO₃–CaZrO₃ Thin Films Prepared by Chemical Solution Deposition”

Japanese Journal of Applied Physics, 51, 09LA03 (2012).

(35)

Makoto Moriya*, Takaaki Watanabe, Wataru Sakamoto, Toshinobu Yogo*

“Combination of Organic Cation and Cyclic Sulfonylamide Anion Exhibiting Plastic Crystalline Behavior in a Wide Temperature Range”

RSC Advances, 2, 8502-8507 (2012).

(34)

Koichiro Hayashi, Kazuki Maeda, Makoto Moriya, Wataru Sakamoto, Toshinobu Yogo*

“In Situ Synthesis of Cobalt Ferrite Nanoparticle/Polymer Hybrid from a Mixed Fe-Co Methacrylate for Magnetic Hyperthermia”

Journal of Magnetism and Magnetic Materials, 324, 3158-3164 (2012).

(33)

Makoto Moriya, Shingo Tominaga, Takayoshi Hashimoto, Kazuki Tanifuji, Tsuyosi Matsumoto, Yasuhiro Ohki, Kazuyuki Tatsumi, Junichi Kaneshiro, Yoshiaki Uesu, Wataru Sakamoto, Toshinobu Yogo*

“Non-Centrosymmetric Coordination Polymer with a Highly Hindered Octahedral Copper Center Bridged by Mandelate”

Inorganic Chemistry, 51, 4689-4693 (2012).

(32)

Atsushi Hieno, Wataru Sakamoto*, Makoto Moriya, Toshinobu Yogo

“Synthesis of BiFeO₃-Bi_0.5Na_0.5TiO₃ Thin Films by Chemical Solution Deposition and Their Properties”

Japanese Journal of Applied Physics, 50, 09NB04 (2011).

(31)

Wataru Sakamoto*, Yu-ichi Hamazaki, Hiroshi Maiwa, Hitoshi Morioka, Keisuke Saito, Makoto Moriya, Toshinobu Yogo

“Growth and Properties of Highly Oriented Lead-Free Mn-Doped NaNbO₃-BaTiO₃ Piezoelectric Thin Films Prepared by Chemical Solution Deposition”

Journal of Crystal Growth, 318, 879-883 (2011).

(30)

Makoto Moriya, Daiki Kato, Wataru Sakamoto, Toshinobu Yogo*

“Plastic Crystalline Lithium Salt with Solid-State Ionic Conductivity and High Lithium Transport Number”

Chemical Communications, 47, 6311-6313 (2011).

(29)

Takashi Furuhashi, Makoto Moriya, Wataru Sakamoto*, Toshinobu Yogo

“Synthesis and Properties of Perovskite BiFeO₃-K_0.5Na_0.5NbO₃ Ceramics by Solid-State Reaction”

Journal of the Ceramic Society of Japan, 118, 701-705 (2010).

(28)

Naoya Kondo, Wataru Sakamoto*, Bong-Yeon Lee, Takashi Iijima, Jun Kumagai, Makoto Moriya, Toshinobu Yogo

“Improvement in Ferroelectric Properties of Chemically Synthesized Lead-Free Piezoelectric (K,Na)(Nb,Ta)O₃ Thin Films by Mn Doping”

Japanese Journal of Applied Physics, 49, 09MA04 (2010).

(27)

Koichiro Hayashi, Kenji Ono, Hiromi Suzuki, Makoto Sawada, Makoto Moriya, Wataru Sakamoto, Toshinobu Yogo*

“Electrosprayed Synthesis of Red-Blood-Cell-Like Particles with Dual Modality for Magnetic Resonance and Fluorescence Imaging”

Small, 6, 2384-2391 (2010).

(26)

Ken-ichi Mimura, Yuki Nishimoto, Hiroshi Orihara, Makoto Moriya, Wataru Sakamoto, Toshinobu Yogo*

“Synthesis of Transparent and Field-Responsive BaTiO₃ Particle/Organosiloxane Hybrid Fluid”

Angewandte Chemie International Edition, 49, 4902-4906 (2010).

(25)

Atsushi Tahara, Mana Kajigaya, Makoto Moriya, Toshiro Takao, Hiroharu Suzuki*

“Metathesis Reaction of Hydrocarbyl Ligands Across the Triruthenium Plane”

Angewandte Chemie International Edition, 49, 5898-5901 (2010).

(24)

Koichiro Hayashi, Kenji Ono, Hiromi Suzuki, Makoto Sawada, Makoto Moriya, Wataru Sakamoto, Toshinobu Yogo*

“High-Frequency, Magnetic-Field-Responsive Drug Release from Magnetic Nanoparticle/Organic Hybrid Based on Hyperthermic Effect”

ACS Applied Materials and Interfaces, 2, 1903-1911 (2010).

(23)

Toshiro Takao, Makoto Moriya, Mana Kajigaya, Hiroharu Suzuki*

“Direct Arylation of a Cluster-Bound Alkyne Ligand with Benzene”

Organometallics, 29, 4770-4773 (2010).

(22)

Junji Umeda, Masashi Suzuki, Masaki Kato, Makoto Moriya, Wataru Sakamoto, Toshinobu Yogo*

“Proton Conductive Inorganic–Organic Hybrid Membranes Functionalized with Phosphonic Acid for Polymer Electrolyte Fuel Cell”

Journal of Power Sources, 195, 5882-5888 (2010).

(21)

Koichiro Hayashi, Kenji Ono, Hiromi Suzuki, Makoto Sawada, Makoto Moriya, Wataru Sakamoto, Toshinobu Yogo*

“One-Pot Biofunctionalization of Magnetic Nanoparticles via Thiol−Ene Click Reaction for Magnetic Hyperthermia and Magnetic Resonance Imaging”

Chemistry of Materials, 22, 3768-3772 (2010).

(20)

Wataru Sakamoto*, Yu-ichi Hamazaki, Hiroshi Maiwa, Makoto Moriya, Toshinobu Yogo

“Lead-Free Piezoelectric Thin Films of Mn-Doped NaNbO₃–BaTiO₃ Fabricated by Chemical Solution Deposition”

Thin Solid Films, 518, 4256-4260 (2010).

(19)

Ken-ichi Mimura, Kosuke Hiramatsu, Makoto Moriya, Wataru Sakamoto, Satoshi Kawado, Yoshiaki Uesu, Toshinobu Yogo*

“Optical Properties of Transparent Barium Titanate Nanoparticle/Polymer Hybrid Synthesized from Metal Alkoxides”

Journal of Nanoparticle Research, 12, 1933-1943 (2010).

(18)

Makoto Moriya, Masashi Ito, Wataru Sakamoto, Toshinobu Yogo*

“Fabrication of Ferrimagnetic Ferrite Nanocrystal Clusters by a Double-Step Templated Reaction Using in situ Polymerization of Phenylalanine”

Crystal Growth and Design, 10, 2350-2354 (2010).

(17)

Ken-ichi Mimura, Makoto Moriya, Wataru Sakamoto, Toshinobu Yogo*

“Synthesis of BaTiO₃ Nanoparticle/Poly(2-Hydroxyethyl Methacrylate) Hybrid Nanofibers via Electrospinning”

Composites Science and Technology, 70, 492-497 (2010).

(16)

Junji Umeda, Makoto Moriya, Wataru Sakamoto, Toshinobu Yogo*

“Synthesis of Proton Conductive Membranes Based on Inorganic-Organic Hybrid Structure Bound with Phosphonic Acid”

Electrochimica Acta, 55, 298-304 (2009).

(15)

Yu-ichi Hamazaki, Wataru Sakamoto*, Makoto Moriya, Toshinobu Yogo

“Effects of BaTiO₃ Content and Mn Doping on Ferroelectric Properties of NaNbO₃–BaTiO₃ Thin Films Prepared by Chemical Solution Deposition”

Japanese Journal of Applied Physics, 48, 09KA08 (2009).

(14)

Wataru Sakamoto*, Asaki Iwata, Makoto Moriya, Toshinobu Yogo

“Electrical and Magnetic Properties of Mn-Doped 0.7BiFeO₃–0.3PbTiO₃ Thin Films Prepared under Various Heating Atmospheres”

Materials Chemistry and Physics, 116, 536-541 (2009).

(13)

Makoto Moriya, Kyohei Yoshikawa, Wataru Sakamoto, Toshinobu Yogo*

“Size-Controlled Submicrometer Hollow Spheres Constituted of ZnO Nanoplates from Layered Zinc Hydroxide”

Inorganic Chemistry, 48, 8544-8549 (2009).

(12)

Makoto Moriya, Atsushi Tahara, Toshiro Takao, Hiroharu Suzuki*

“Arylation of Hydrocarbyl Ligands Formed from n-Alkanes through C–H Bond Activation of Benzene Using a Triruthenium Cluster”

European Journal of Inorganic Chemistry, 3393-3397 (2009).

(11)

Koichiro Hayashi, Makoto Moriya, Wataru Sakamoto, Toshinobu, Yogo*

“Chemoselective Synthesis of Folic Acid−Functionalized Magnetite Nanoparticles via Click Chemistry for Magnetic Hyperthermia”

Chemistry of Materials, 21, 1318-1325 (2009).

(10)

Makoto Moriya, Masashi Ito, Wataru Sakamoto, Toshinobu Yogo*

“One-Pot Synthesis and Morphology Control of Spinel Ferrite (MFe₂O₄, M = Mn, Fe, and Co) Nanocrystals from Homo- and Hetero-Trimetallic Clusters”

Crystal Growth and Design, 9, 1889-1893 (2009).

(9)

Junji Umeda, Makoto Moriya, Wataru Sakamoto, Toshinobu Yogo*

“Synthesis of Proton Conductive Inorganic-Organic Hybrid Membranes from Organoalkoxysilane and Hydroxyalkylphosphonic Acid”

Journal of Membrane Science, 326, 701-707 (2009).

(8)

Yuya Ito, Makoto Moriya, Wataru Sakamoto*, Toshinobu Yogo

“Preparation and Properties of Ferroelectric 0.7BiFeO₃-0.3BaTiO₃ Thin Films by Chemical Solution Deposition”

Transactions Materials Research Society Japan, 33, 35-38 (2008).

(7)

Makoto Moriya, Roland Fröhlich, Gerald Kehr, Gerhard Erker*, Stefan Grimme

“Structural Features of [(CpPPh₂AuCl)₂ZrCl₂]: Exploring the Limits of Aurophilic Interactions”

Chemistry An Asian Journal, 3, 753-758 (2008).

(6)

Toshiro Takao, Makoto Moriya, Hiroharu Suzuki*

“Insertion of Acetylene and Nitriles into a Ru-C Bond of a Dicationic Triruthenium Complex Having a m₃-h³-C₃ Ring: Formation of Six-Membered Ruthenacycles on a Triruthenium Core”

Organometallics, 27, 1044-1054 (2008).

(5)

Toshiro Takao, Makoto Moriya, Hiroharu Suzuki*

“Introduction of a Methoxy Group into a Hydrocarbyl Ligand Derived from a Linear Alkane on a Triruthenium Cluster via Chemical Oxidation”

Organometallics, 27, 18-20 (2008).

(4)

Makoto Moriya, Toshiro Takao, Hiroharu Suzuki*

“Synthesis and Structure of Cationic Triruthenium Complexes Containing an Oxametallacycle; Reversible Carbon-Oxygen Bond Formation and Scission on an Electron-Deficient Triruthenium Plane”

Organometallics, 26, 1650-1657 (2007).

(3)

Toshiro Takao, Makoto Moriya, Hiroharu Suzuki*

“Redox-Induced Reversible Rearrangement of a Dimetalloallyl Ligand on the Trinuclear Cluster of Ruthenium. Mechanistic Aspects of Formation of The Face-Capping m₃-C₃ Ring on the Triruthenium Plane”

Organometallics, 26, 1349-1360 (2007).

(2)

Akiko Inagaki, Toshiro Takao, Makoto Moriya, Hiroharu Suzuki*

“Thermal Skeletal Rearrangement of a nido-Ruthenacyclopentadiene Complex Involving Reversible Rupture and Formation of a Ruthenium-Ruthenium Bond”

Organometallics, 22, 2196-2198 (2003).

(1)

Toshiro Takao, Toshifumi Takemori, Makoto Moriya, Hiroharu Suzuki*

“Skeletal Rearrangement of a C₂ Unit on a Triruthenium Cluster. Synthesis of m-Ethylidene, m₃-Ethylidyne, and m₃-Vinylidene Complexes by the Reaction of {Cp*Ru(m-H)}₃(m₃-H)₂} with Acetylene”

Organometallics, 21, 5190-5203 (2002).

総説

(2)

Makoto Moriya*

“Construction of Nanostructures for Selective Lithium Ion Conduction Using Self-Assembled Molecular Arrays in Supramolecular Solids”

Science and Technology of Advanced Materials, 181, 634-643 (2017).

(1)

守谷誠*

「イオン伝導パスを有する分子結晶の構築と選択的なリチウムイオン伝導」

高分子論文集, 74, 482-493 (2017).

著書

(2)

「全固体電池の界面抵抗低減と作製プロセス、評価技術」

技術情報協会, (2020)

担当箇所：分子の規則的配列を利用した固体電解質材料の開発とイオン伝導パスの構築 （第4章 第7節）

守谷誠

(1)

Processing and Properties of Advanced Ceramics and Composites V: Ceramic Transactions, Vol. 240, pp.313-319.

The American Ceramic Society, John Wiley & Sons (2013).

“Fabrication and improvement of the properties of Mn-doped bismuth ferrite-barium titanate thin films”

Yuya Ito, Makoto Moriya, Wataru Sakamoto, Toshinobu Yogo,

解説

1. 守谷誠「伝導パスを介してMgイオンを伝導させる有機固体電解質」化学工業，73(9), 558-565 (2022)

2. 守谷誠「分子結晶におけるイオン伝導」ケミカルタイムス，3, 14-19 (2022)

3. 難波江裕太、大山順也、守谷誠「燃料電池の非白金化を目指した新規物質の探究 」クリーンエネルギー，31(4)，22-27 (2022)

4. 守谷誠「分子結晶電解質の開発と高速Li イオン伝導性の発現 」セラミックス，56, 599-602 (2021).

5. 守谷誠「リチウムイオン伝導性分子結晶の開発と固体電解質としての展開 」溶融塩および高温化学，64, 61-65 (2021).

6. 守谷誠、一杉太郎「固体電解質に向けた有機イオン柔粘性結晶の分子設計」マテリアルステージ, 6, 17-21 (2021).

7. 守谷誠「固体電解質に向けた有機イオン柔粘性結晶の分子設計」機能材料, 2019年2月号

招待講演 （国内）

1. 守谷誠「分子結晶電解質と全固体電池」第4回静岡県大学研究連携シンポジウム，アクトシティ浜松，2022年8月31日

2. 守谷誠「無機と有機のいいとこどりを目指した分子結晶電解質の開発」JSTさきがけ「未来材料」無機と有機を結ぶ未来材料ワークショップ，オンライン講演，2022年6月23日

3. 守谷誠「高速かつ選択的なリチウムイオン伝導性を示す分子結晶固体電解質の開発と全固体電池への展開」第52回中部化学関係学協会支部連合秋季大会，オンライン講演，2021年11月1日

4. 守谷誠「リチウムイオン伝導性分子結晶電解質の開発と固体電解質としての展開」電気化学会溶融塩委員会第205回定例委員会講演会，オンライン講演，2021年6月24日，主宰：電気化学会溶融塩委員会

5. 守谷誠「高速リチウムイオン伝導性を示す分子結晶電解質の開発と電解質の融解・凝固を利用した全固体電池の作製」一般社団法人 電子情報技術産業協会(JEITA)　全固体電池に関する調査TF　講演会，2021年2月26日, 主催：一般社団法人 電子情報技術産業協会(JEITA)

6. 守谷誠「高速リチウムイオン伝導性分子結晶電解質の開発と全固体電池への展開」第14回静岡大学超領域研究会，静岡県 静岡大学静岡キャンパス，2020年12月3日，主催：静岡大学超領域研究推進本部

7. 守谷誠「イオン伝導パスを有する分子結晶の構築と選択的なリチウムイオン伝導」高分子学会第118回プラスチックフィルム研究会, 東京都 東京工業大学大岡山キャンパス，2019年7月25日，主催：高分子学会プラスチックフィルム研究会

8. 守谷誠「結晶格子中における分子の規則的配列を活用したイオン伝導パスの構築と固体電解質への展開」 超分子創製化学セミナー（第83回），滋賀県 立命館大学びわこ・くさつキャンパス，2019年3月6日, 主催：立命館大学R-GIRO プロジェクト「有機生命資源の有効利用による電子・光機能材料の創製」

9. 守谷誠「分子集積体からなる固体電解質材料の開発」第13回静岡大学超領域研究会，静岡県 静岡大学浜松キャンパス，2019年7月11日, 主催：静岡大学超領域研究推進本部

10. 守谷誠 “Molecular ionics using ordered arrangement of supramolecules in crystal lattices”　第25回日本MRS年次大会, 神奈川県 横浜市開港記念館，2015年12月8日, 主催：日本MRS

11. 守谷誠「分子の階層構造とリチウムイオン伝導性」第17回VBLシンポジウム，愛知県 名古屋大学東山キャンパス，2013年11月26日, 主催：名古屋大学工学研究科 名古屋大学ベンチャー・ビジネス・ラボラトリー

12. 守谷誠「分子の規則的配列を利用した新しい固体電解質材料の開発」高分子同友会勉強会，東京都 高分子同友会会議室，2013年2月20日, 主催：高分子学会 高分子同友会

13. 守谷誠「分子設計に基づいたリチウムイオン伝導体の開発」第137回東海高分子研究会講演会，三重県 湯本グリーンホテル，

2011年9月2日，主催：高分子学会東海支部・東海高分子研究会

招待講演 （国際会議）

1. Makoto Moriya "Molecular Crystalline Electrolytes with Solid-state Li-ion Conductivity" Symposium on Functional Ionic Materials and Devices, オンライン講演，2022年9月28日

2. Makoto Moriya "Fabrication of Molecular Crystals Showing Solid-State Magnesium Ion Conductivity" International Conference on Materials Science and Engineering 2021, オンライン講演，2021年10月14日

3. Makoto Moriya "Molecular Crystalline Electrolytes with Ion Conduction Paths for Solid-State Li-Ion Diffusion" JSCC symposium 'Coordination chemistry for energy conversion/storage technology'，オンライン講演，2021年9月16日

4. Makoto Moriya "Supramolecular Crystalline Electrolytes with Ion Conduction Paths for Selective Lithium Ion Diffusion" The 3rd International Conference on Emerging Advanced Nanomaterials (ICEAN 2018), Newcastle Australia, November 2, 2018.

5. Makoto Moriya "Molecular Ionics in Supramolecular Assemblies with Ion Conduction Paths Containing Lithium Ions" EMN meeting on metal organic framework (EMN-MOF2016), Qingdao China, June 14, 2016.

各種メディアでの報道

(5)「「社会の役に」全固体電池研究に懸ける　脱炭素社会へ高まる期待」，静岡新聞夕刊4, 5面（2021.2.19）

(4)「「第4の電解質 分子結晶」がもたらす全固体電池バージョンアップ～静岡大と東工大のタッグで実現」，ウェブメディア「DG Lab Haus」（2020.12.2）

(3)「全固体電池の充放電効率95％に、静岡大と東工大が有機分子結晶を開発」，日刊工業新聞（2020.11.30）

(2)「高リチウムイオン伝導性実現　有機分子結晶を開発」，科学新聞4面（2020.11.20）

(1)「寒さに強い全固体電池、零下でもEV快走へ」，日経産業新聞６面（2020.11.16）

その他の業績はこちら：静岡大学教員データベース