O的电子结合能.pdf

1XPS_Database O1s的电子结合能： Energy (eV) Element Chemical bonding Ref524.5 O1s fluoration avec F2-HF sur fibre C320.00A 117528.1 O1s O2- anion in LaNiO3 244528.2 O1s Ba 155528.3 O1s O ds Li2O après bombardement par l'argon 51528.3 O1s Li2O immergé ds DEC et bomb par l'argon 80min 51528.3 O1s Li2Oap immersion ds DEC(LiPF6) et bomb par argon 51528.6 O1s La2O3 157528.7 O1s PbO ( ? ) 157528.7 O1s O2- oxo- species 159528.8 O1s Sm2O3 157528.8 O1s Eu2O3 157528.8 O1s La2O3 (oxide) 13528.9 O1s Gd2O3 157528.9 O1s LaOOH (oxide) 13529 O1s CdO 150529 O1s CeO2 150529 O1s TiO2 ( d ) 157529 O1s CdO 157529 O1s CeO2 157529 O1s Nd2O3 157529 O1s Dy2O3 157529 O1s Ho2O3 157529 O1s Rb 155529 O1s Sr 155529 O1s no double bonded in case of Na3PO4 217529 O1s associated with the titanate oxygen, (SrTiO3 surface) 113529 O1s CeOOH (oxide) 13529.1 O1s Y2O3 157529.1 O1s Er2O3 157529.1 O1s Yb2O3 157529.1 O1s NiO ( 10puis-6 torr) 78529.1 O1s NiO (1er pic) ( 800°C - 10min ) 78529.1 O1s NiO ( air 15min ) 78529.1 O1s NiO ( 250°C -1h ) 78529.1 O1s NiO 60( 800°C-air ) 78529.1 O1s NiO ( 800°C-air+ O2-10min ) 78529.1 O1s O ( 800°C-air+ O2-10min ) 78529.1 O1s O2- anion in LaNiO(4+d) 244529.1 O1s Ce2O3 (oxide) 13529.2 O1s RuO2 150529.2 O1s RuO2 111529.2 O1s Tm2O3 157 2529.2 O1s CeO(OH)2 (oxide) 13529.2 O1s Ce(OH)4 (oxide) 13529.2 O1s CeO2 214529.2 O1s Ce in mixed oxydes ceria/zirconia. Ce80%- Zr20% Mol 214529.2 O1s CeO2 (oxide) 13529.3 O1s NiO 150529.3 O1s Lu2O3 157529.3 O1s Ce in mixed oxydes ceria/zirconia. Ce68%- Zr32% Mol 214529.4 O1s CuO 150529.4 O1s O-Ti (TiO2) 43529.4 O1s CaO , ZnO-SiO2 135529.4 O1s PbO2 ( ? ) 157529.4 O1s Cs 155529.4 O1s Ce in mixed oxydes ceria/zirconia. Ce50%- Zr50% Mol 214529.4 O1s Y2O3 (oxide) 13529.5 O1s FeO 89529.5 O1s Fe2O3 89529.5 O1s NiO 157529.5 O1s Ce in mixed oxydes ceria/zirconia. Ce15%- Zr85% Mol 214529.5 O1s Co foil polish- Ar+ etch, +O2 -200°C/30 mn+400°C/30mn 101529.6 O1s TiO2 31529.6 O1s NiO 111529.6 O1s oxydes de Ti,V,Cr,Mn,Fe 60529.6 O1s In2O3 157529.6 O1s Bi2O3 157529.6 O1s CuO 247529.6 O1s NiO 247529.6 O1s CoO 247529.6 O1s TiO2 208529.6 O1s Oxyde 118529.6 O1s Ni foil polish- Ar+ etch, +O2 -200°C/1h+400°C/2h30mn 101529.7 O1s OH , Oads 178529.7 O1s CuFe2O4 247529.7 O1s CoOOH 247529.7 O1s Na 155529.7 O1s Co foil polishing + water immersion/24h 101529.7 O1s Fe=O 201529.75 O1s PbO (70%) / O non ponté 165529.8 O1s Fe3O4 150529.8 O1s TiO2 19529.8 O1s Na2Cr2O7 111529.8 O1s Fe3O4 89529.8 O1s MgO 157529.8 O1s MnO2 157529.8 O1s ThO2 157529.8 O1s NiO 183 3529.8 O1s Ca 155529.8 O1s Sb 155529.8 O1s O no-bridging, lead silicate glasses. 165529.8 O1s O-Ti in the TiN coatings before and after erosion 43529.8 O1s TiO2 in the TiN/Si interface 43529.8 O1s Co foil polishing and Ar+ etching, + O2 at 200°C/30mn 101529.8 O1s (after Ar sputtering of SrTiO3 surface) 113529.8 O1s V2O5 219529.8 O1s PtO (oxide) 13529.8 O1s Ni foil polishing + water immersion/28h 101529.85 O1s NaAlO2 155529.9 O1s FeOOH 89529.9 O1s O (2-) -304 SS- 138529.9 O1s Sc2O3 157529.9 O1s TiO2 ( b ) 157529.9 O1s Fe2O3 157529.9 O1s NiFe2O4 247529.9 O1s Co2O3 247529.9 O1s CoFe2O4 247529.9 O1s Cr2O3 186529.9 O1s O ds O(2-) 1529.9 O1s O ds O2- 216529.9 O1s O2- 87529.9 O1s O 84529.9 O1s alphaFe2O3 89529.9 O1s CoOOH (oxide) 13529.9 O1s Co foil polishing + water immersion/63h 101529.9 O1s CoO (oxide) 13529.9 O1s ZrO2 (oxide) 13529.9 O1s As-received AlN powder, Al2O3 present near the surface 94529.9 O1s MoO3 219529.9 O1s Ni foil polishing and Ar+ etching, + O2 at 200°C/1h 101530 O1s CoO 150530 O1s Co3O4 150530 O1s Na2MoO4 150530 O1s Fe2O3 111530 O1s CuCrO2 111530 O1s Oads 76530 O1s CoO 157530 O1s Co3O4 157530 O1s ZnO 157530 O1s ZrO2 157530 O1s pic attribué à Fe2O3 182530 O1s O 84530 O1s FeO 89530 O1s Ni2O3 (oxide) 13 4530 O1s Fe2O3 (oxide) 13530 O1s O2- with a sample immersed in a 60°C solution 11530 O1s PtO2 (oxide) 13530 O1s NiO (oxide) 13530 O1s Co2O3 (oxide) 13530 O1s FeO (oxide) 13530 O1s Rh2O3 (oxide) 13530.1 O1s CO in [Eu(H2daaen)] 166530.1 O1s Ti oxydes 197530.1 O1s Li2CrO4 111530.1 O1s In 155530.1 O1s Sn 155530.1 O1s PbO(18%) / O non ponté 165530.1 O1s PdO (oxide) 13530.1 O1s SnO2 (oxide) 13530.1 O1s WOOH (oxide) 13530.1 O1s O2- with a sample immersed in a room t° solution 11530.1 O1s TiO2 219530.2 O1s Cu2O 150530.2 O1s WO3 111530.2 O1s Cr2O3 111530.2 O1s HfO2 157530.2 O1s NaA 191530.2 O1s CrO3 186530.2 O1s ion oxyde O(-II) 186530.2 O1s pic du Fe2O3 après bombardement (5 min) 182530.2 O1s NaA 155530.2 O1s Fe3O4 89530.2 O1s FeOOH 13530.2 O1s Fe3O4 (oxide) 13530.2 O1s WO3 (oxide) 13530.2 O1s TiO2-As2O5 systeme 219530.3 O1s Cu2O 111530.3 O1s Cr2O3 157530.3 O1s Cr2O3 183530.3 O1s Fe3O4 183530.3 O1s O ds PMDA-ODA T=250°C av 1,0 nm de Cr(Cr-oxyde) 131530.3 O1s O ds Cr2O3 176530.3 O1s O2- 156530.3 O1s UO2 160530.3 O1s FeOOH 89530.3 O1s CuO (oxide) 13530.3 O1s Cu2O (oxide) 13530.35 O1s PbS - air 220j- 89530.4 O1s SnO2 150530.4 O1s RuO3 111 5530.4 O1s silico-alumines 50530.4 O1s SiO2 135530.4 O1s TiO2 ( a ) 157530.4 O1s V2O5 157530.4 O1s CrO3 ( ? ) 15。