[1]. In fl uence of Gel Electrolytes Containing OMgCl-functionalized Inorganic Nano fi bers on Magnesium Plating/Stripping Reaction
Electrochemistry 91/7 - 077001 (2023年) [査読] 有 [国際共著論文] 該当しない
[責任著者・共著者の別] 共著者
[著者] Takahiro Okuno, Tetsuhei Kondo, Minoru Ashizawa, Fumihiro Sagane, Hidetoshi Matsumoto [DOI]
[2]. The Effect of Insoluble Oxide Additives on a Magnesium Plating/ Stripping Reaction in Mg(N(CF3SO2)2)2/Glyme Solutions
The Journal of Physical Chemistry C 127/ 4459-4464 (2023年) [査読] 有 [国際共著論文] 該当しない
[責任著者・共著者の別] 責任著者
[著者] Fumihiro Sagane, Tomoya Masutani, Akinori Konno, Kiyoshi Kanamura [DOI]
[3]. The Influence of the Coordination on the Kinetic Behavior of the Anion Intercalation/De-Intercalation into the Graphite Electrode
Journal of the electrochemical society 169/ - 100505 (2022年) [査読] 有 [国際共著論文] 該当しない
[責任著者・共著者の別] 責任著者
[著者] Fumihiro Sagane and Takumi Suzuki [DOI]
[4]. The Effect of the Solvation Ability Towards Mg2+-ion on the Kinetic Behavior of Mg3Bi2 Electrode
Journal of the electrochemical society 169/ - 030517 (2022年) [査読] 有 [国際共著論文] 該当しない
[責任著者・共著者の別] 責任著者
[著者] Fumihiro Sagane, Masaki Matsui, and Kiyoshi Kanamura [DOI]
[5]. Kinetic Behavior of the Anion Intercalation/De-intercalation into the Graphite Electrode in Organic Solution
Electrochemistry 90/3 - 037001 (2022年) [査読] 有 [国際共著論文] 該当しない
[責任著者・共著者の別] 責任著者
[著者] Fumihiro Sagane [DOI]
[6]. The E ff ect of Mg Morphology on the Irregular Behavior of the Electrochemical Quartz Crystal Microbalance in Mg[N(CF 3 SO 2 ) 2 ] 2 /glyme Solutions
Electrochemistry 90/5 - 057003 (2022年) [査読] 有 [国際共著論文] 該当しない
[責任著者・共著者の別] 責任著者
[著者] Fumihiro Sagane and Akiya Muramatsu [DOI]
[7]. The Effect of the Coordination Ability on the Mg Plating/Stripping Behavior in Mg(N(CF3SO2)2)2/Glyme Based Electrolytes
Journal of the electrochemical society 168/ - 120528 (2021年) [査読] 有 [国際共著論文] 該当しない
[責任著者・共著者の別] 責任著者
[著者] Fumihiro Sagane,Kenta Ogi,Akinori Konno,and Kiyoshi Kanamura [DOI]
[8]. マグネシウム二次電池の開発動向と,車載利用に向けた課題
車載テクノロジー 9/1 50-56 (2021年) [査読] 無 [国際共著論文] 該当しない
[責任著者・共著者の別] 責任著者
[著者] 嵯峨根史洋
[9]. 多価カチオン系蓄電池の最新開発動向
ペトロテック 44/6 - (2021年) [査読] 無 [国際共著論文] 該当しない
[責任著者・共著者の別] 共著者
[著者] 福塚友和、嵯峨根史洋
[10]. Electrochemical N(CF 3 SO 2 ) 2 − Intercalation/de-intercalation into Graphite Electrode as the Positive Electrode Reaction for Mg Secondary Batteries
Electrochemistry 89/1 12-18 (2020年) [査読] 有 [国際共著論文] 該当しない
[責任著者・共著者の別] 責任著者
[著者] Takumi Suzuki, Fumihiro Sagane [DOI]
[11]. マグネシウム電池用電解液の開発状況
電気化学 87/Autumn 213-219 (2019年) [査読] 無 [国際共著論文] 該当しない
[責任著者・共著者の別] 責任著者
[著者] 嵯峨根史洋
[12]. The Effect of Cyclic Ethers on Mg Plating/Stripping Reaction in Ionic Liquid Electrolytes
The Effect of Cyclic Ethers on Mg Plating/Stripping Reaction in Ionic Liquid Electrolytes 166/ A5054-A5058 (2018年) [査読] 有 [国際共著論文] 該当しない
[責任著者・共著者の別] 責任著者
[著者] Fumihiro Sagane, Kenta Ogi, Akinori Konno, and Kiyoshi Kanamura [DOI]
[13]. Synthesis of NaTi 2 (PO 4 ) 3 Thin-Film Electrodes by Sol-Gel Method and Study on the Kinetic Behavior of Na + -Ion Insertion/Extraction Reaction in Aqueous Solution
Journal of the Electrochemical Society 163/13 A2835-A2839 (2016年) [査読] 有 [国際共著論文] 該当しない
[責任著者・共著者の別] 責任著者
[著者] 嵯峨根 史洋
[14]. The Effect of the Cyclic Ether Additives to the Ethereal Electrolyte Solutions for Mg secondary Battery
Electrochemisry 84/2 76-78 (2016年) [査読] 有 [国際共著論文] 該当しない
[責任著者・共著者の別] 責任著者
[著者] [責任著者]嵯峨根 史洋 [共著者]尾木謙太,昆野昭則,江頭港,金村聖志
[15]. In-situ Li7La3Zr2O12/LiCoO2 interface modification for advanced all-solid-state battery
Journal of Power Sources 260/ 292-298 (2014年) [査読] 有 [国際共著論文] 該当しない
[責任著者・共著者の別] 共著者
[著者] [責任著者]入山恭寿 [共著者]嵯峨根 史洋,加藤健久,濱中忠,山本和生,平山司 [備考] 実験および考察
[16]. Dielectric Modification of 5V-Class Cathodes for High-Voltage All-Solid-State Lithium Batteries
Journal of Power Sources 4/9 1301416-1301420 (2014年) [査読] 有 [国際共著論文] 該当しない
[責任著者・共著者の別] 共著者
[著者] [責任著者]矢田千紘 [共著者]嵯峨根 史洋,入山恭寿,大森章弘,加藤健久,井出和人 [備考] 実験全般および考察
[17]. Electrochemical properties of an all-solid-state lithium-ion battery with an in-situ formed electrode material grown from a lithium conductive glass ceramics sheet
Journal of Power Sources 241/(num) (583) - (588) (2013年) [査読] 有 [国際共著論文] 該当しない
[責任著者・共著者の別] 共著者
[著者] [責任著者]入山恭寿 [共著者]嵯峨根 史洋,網木裕一,山本和生,平山司,須藤雅夫 [備考] 実験および考察全般
[18]. Effects of current densities on the lithium plating morphology at a lithium phosphorus oxynitride glass electrolyte/copper thin film interface
Journal of Power Sources 233/(num) 34-42 (2013年) [査読] 有 [国際共著論文] 該当しない
[責任著者・共著者の別] 共著者
[著者] [責任著者]入山恭寿 [共著者]嵯峨根 史洋,池田憲一,沖田憲吾,佐野光,栄部比夏里 [備考] 全文
[19]. In-situ scanning electron microscopy observations of Li plating and stripping reactions at the lithium phosphorus oxynitride glass electrolyte/Cu interface
Journal of Power Sources 225/(num) 245-250 (2013年) [査読] 有 [国際共著論文] 該当しない
[責任著者・共著者の別] 共著者
[著者] [責任著者]入山恭寿 [共著者]嵯峨根 史洋,下川亮介,佐野光,栄部比夏里 [備考] すべて
[20]. Electrochemical Analysis of Lithium-Ion Transfer Reaction through the Interface between Ceramic Electrolyte and Ionic Liquids
Journal of The Electrochemcial Society 159/11 A1766-A1769 (2012年) [査読] 有 [国際共著論文] 該当しない
[責任著者・共著者の別] 責任著者
[著者] [責任著者]嵯峨根 史洋 [共著者]安部武志,小久見善八
[21]. 全固体リチウム二次電池の高性能化に向けた界面制御(解説)
電池技術 23/ 91-99 (2011年)
[責任著者・共著者の別] 共著者
[著者] [責任著者]入山恭寿 [共著者]嵯峨根史洋
[22]. Lithium-ion Transfer at the Interface between Solid and Liquid Electrolytes under Applying DC Voltage
CHEMISTRY LETTERS 39/8 826-827 (2010年) [査読] 有
[責任著者・共著者の別] 共著者
[著者] [責任著者]嵯峨根史洋 [共著者]宮崎晃平,福塚友和,安部武志
[23]. Sodium-ion transfer at the interface between ceramic and organic electrolytes
JOURNAL OF POWER SOURCES 195/21 7466-7470 (2010年) [査読] 有
[責任著者・共著者の別] 共著者
[著者] [責任著者]嵯峨根史洋 [共著者]安部武志,小久見善八
[24]. Li(+)-Ion Transfer through the Interface between Li(+)-Ion Conductive Ceramic Electrolyte and Li(+)-Ion-Concentrated Propylene Carbonate Solution
JOURNAL OF PHYSICAL CHEMISTRY C 113/46 20135-20138 (2009年) [査読] 有
[責任著者・共著者の別] 共著者
[著者] [責任著者]嵯峨根史洋 [共著者]安部武志,小久見善八
[25]. Kinetics of Lithium-Ion Transfer at the Interface between Li(0.35)La(0.55)TiO(3) and Binary Electrolytes
JOURNAL OF PHYSICAL CHEMISTRY C 113/32 14528-14532 (2009年) [査読] 有
[責任著者・共著者の別] 共著者
[著者] [責任著者]山田裕樹 [共著者]嵯峨根史洋,入山恭寿,安部武志,小久見善八
[26]. Lithium-ion transfer at the interface between lithium-ion conductive ceramic electrolyte and liquid electrolyte - A key to enhancing the rate capability of lithium-ion batteries
JOURNAL OF THE ELECTROCHEMICAL SOCIETY 152/11 A2151-A2154 (2005年) [査読] 有
[責任著者・共著者の別] 共著者
[著者] [責任著者]安部武志 [共著者]嵯峨根史洋,大塚正博,入山恭寿,小久見善八
[27]. Li+ and Na+ transfer through interfaces between inorganic solid electrolytes and polymer or liquid electrolytes
JOURNAL OF POWER SOURCES 146/1-2 749-752 (2005年) [査読] 有
[責任著者・共著者の別] 共著者
[著者] [責任著者]嵯峨根史洋 [共著者]安部武志,入山恭寿,小久見善八
[28]. Lithium ion transfer at the interface between lithium-ion-conductive solid crystalline electrolyte and polymer electrolyte
JOURNAL OF THE ELECTROCHEMICAL SOCIETY 151/11 A1950-A1953 (2004年) [査読] 有
[責任著者・共著者の別] 共著者
[著者] [責任著者]安部武志 [共著者]大塚正博,嵯峨根史洋,入山恭寿,小久見善八 |