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Department Of Chemistry Tokyo Metropolitan University | 論文
- Structure and Property of C_ Single Crystal : V-A Organic Syntheses : V Organic Superconductors
- Thermoelectric Power and an Order-Parameter Associated with the Phase Transition at 180 K of the Organic Metal,(DMET)_2Au (CN)_2
- Superconductivity in (DMET)_2AuCl_2 and (DMET)_2AuI_2
- Possible Appearance of Spin-Density Waves in the Insulating Phase of the Organic Conductors,(DMET)_2Au (CN)_2 and (DMET)_2AuI_2
- On Ambient-Pressure Superconductivity in Organic Conductors: Electrical Properties of (DMET)_2I_3,(DMET)_2I_2Br and (DMET)_2IBr_2
- Superconductivity and the Possibility of Semiconductor-Metal Transition in (DMET)_2AuBr_2
- 熱分解型元素分析/同位体比質量分析計(TCEA/IRMS)を用いた有機物の水素・酸素安定同位体比の測定方法における留意点とその応用(有機化合物の安定同位体比を用いた有機地球化学的研究の発展とその応用(Part I))
- Stability of Metallofullerene LaC_ on UV Light Irradiation
- 南丹鉄隕石の化学組成と希ガス同位体存在度(英文)
- Electronic Structures of CeNi_2Al_5 and CeNiAl_4 Studied by Photoelectron Spectroscopy : Condensed Matter: Electronic Properties, etc.
- Pressure-Induced Ferromagnetic to Nonmagnetic Transition and the Enhancement of Ferromagnetic Interaction in the Thiazyl-Based Organic Ferromagnet γ-BBDTA・GaCl_4(Condensed matter: electronic structure and electrical, magnetic, and optical properties)
- Pressure Effects on an S = 1 Haldane Compound Ni(C_5H_N_2)_2N_3(PF_6)
- 3P008 溶液NMRによるチューブリンチロシン化酵素の構造研究(蛋白質-構造,第48回日本生物物理学会年会)
- A Cysteine Endopeptidase (“Dionain”) Is Involved in the Digestive Fluid of Dionaea muscipula (Venus’s Fly-trap)
- 多元素安定同位体比分析による食品の表示偽装問題へのアプローチ
- Pressure Effects on an S=1 Haldane Compound Ni(C_5H_N_2)_2N_3(PF_6)
- Anion-exchange Behavior of Rf in HCl and HNO_3 Solutions
- Molecular characteristics of serotype 3 Streptococcus pneumoniae isolates among community-acquired pneumonia patients in Japan
- Seeligeriolysin O, a protein toxin of Listeria seeligeri, stimulates macrophage cytokine production via Toll-like receptors in a profile different from that induced by other bacterial ligands
- Development of HER2-antagonistic peptides as novel anti-breast cancer drugs by in silico methods