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Emergent Device Team is proposing an interdisciplinary concept “Iontronics”, which stands for ion controlled electronics. The purpose of the Emergent Device Team is to make revolutionary contribution to the creation novel properties and function of quantum matter such as strongly correlated materials and nanostructured materias. The central device is the electric double layer transistor (EDLT) using organic electrolyte or ionic liquids/gels, which enables us to produce ultrahigh electric fields or in-situ physical property measurements of the electrochemical processes, which are difficult or impossible to realize in conventional field effect transistors. With EDLT, we explore novel quantum phenomena such as electric field induced superconductivity, Mott transistor, electric field manipulation of spin current. Also, through iontronics, we aim at creating new thermoelectric materials with revolutionarily high energy conversion efficiency.
Emergent Device Team is proposing an interdisciplinary concept “Iontronics”, which stands for ion controlled electronics. The purpose of the Emergent Device Team is to make revolutionary contribution to the creation novel properties and function of quantum matter such as strongly correlated materials and nanostructured materias. The central device is the electric double layer transistor (EDLT) using organic electrolyte or ionic liquids/gels, which enables us to produce ultrahigh electric fields or in-situ physical property measurements of the electrochemical processes, which are difficult or impossible to realize in conventional field effect transistors. With EDLT, we explore novel quantum phenomena such as electric field induced superconductivity, Mott transistor, electric field manipulation of spin current. Also, through iontronics, we aim at creating new thermoelectric materials with revolutionarily high energy conversion efficiency.
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Muhammad Alief Irham,Ricky Dwi Septianto, Retno Dwi Wulandari,Yutaka Majima,Ferry Iskandar,Yoshihiro Iwasa,Satria Zulkarnaen Bisri
ACS applied materials & interfacesno. 19 (2024): 24889-24898
Science Advancesno. 15 (2024): eadk1415-eadk1415
Shunta Aoki, Yu Dong,Ziqian Wang, Xiang S W Huang,Yuki M Itahashi,Naoki Ogawa,Toshiya Ideue,Yoshihiro Iwasa
Advanced materials (Deerfield Beach, Fla.)no. 21 (2024): e2312781-e2312781
Elsevier eBookspp.31-37, (2024)
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Physical reviewno. 16 (2023)
Zeya Li,Junwei Huang,Ling Zhou,Zian Xu,Feng Qin,Peng Chen, Xiaojun Sun,Gan Liu, Chengqi Sui,Caiyu Qiu,Yangfan Lu,Huiyang Gou,
Nature Communicationsno. 1 (2023): 1-9
PHYSICAL REVIEW RESEARCHno. 2 (2023)
Hideki Matsuoka,Yukako Fujishiro,Susumu Minami,Takashi Koretsune,Ryotaro Arita, Yoshinori Tokura,Yoshihiro Iwasa
arxiv(2023)
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