Yamamoto Hiromasa | Chemirecognics Project Erato Research Development Corporation Of Japan
スポンサーリンク
概要
- YAMAMOTO Hiromasaの詳細を見る
- 同名の論文著者
- Chemirecognics Project Erato Research Development Corporation Of Japanの論文著者
関連著者
-
YAMAMOTO Hiromasa
Chemirecognics Project, ERATO, Research Development Corporation of Japan
-
Shinkai Seiji
Chemirecognics Project Erato Research Development Corp. Of Japan C/o Fukuoka Industrial Technology C
-
Yamamoto Hiromasa
Chemirecognics Project Erato Research Development Corporation Of Japan
-
新海 征治
九州大学大学院工学研究院
-
Shinkai Seiji
Chemirecognics Project Erato Research Development Corporation Of Japan
-
Yamamoto Hiromasa
Department Of Physics Rikkyo University
-
Shinkai Seiji
Department Of Chemistry & Biochemistry Kyushu University
-
Ueda Kazumasa
Research Institute For Advanced Science And Technology Osaka Prefecture University
-
Sakaki T
Chemirecognics Project Erato Research Development Corporation Of Japan
-
Sakaki Toru
Chemirecognics Project Erato Research Development Corp. Of Japan C/o Fukuoka Industrial Technology C
-
UEDA Keiko
Chemirecognics Project, ERATO, Research Development Corporation of Japan
-
Ueda K
Research Institute For Advanced Science And Technology Osaka Prefecture University
-
Ueda Keiko
Chemirecognics Project Erato Research Development Corporation Of Japan
-
Suenaga H
Fukuoka Industrial Technol. Center Fukuoka
-
Suenaga Hikaru
Chemirecognics Project Erato Research Development Corporation Of Japan
-
SAKAKI Toru
Chemirecognics Project, ERATO, Research Development Corp. of Japan, c/o Fukuoka Industrial Technolog
-
Sandanayake K.
Chemirecognics Project Erato Research Development Corporation Of Japan
著作論文
- Exploitation of Na^+ -Selective Electrodes for Protein Solutions from Crown-Bridged Calix [4] quinones
- Regioselective Synthesis of 1,2- and 1,3-Bridged Calix[4]crowns. What Are the Factors Controlling the Regioselectivity?
- Molecular Design of Chromogenic Calix[4]crowns Which Show Very High Na^+ Selectivity
- Molecular Design of Calix[4]arene-Based Sodium-Selective Electrodes Which Show Remarkably High 10^-10^Sodium/Potassium Selectivity