Semiconductor nanoparticle, dispersion liquid, film, and method of producing semiconductor nanoparticle

What is claimed is: 1. A semiconductor nanoparticle, wherein oxygen, zinc, and sulfur are detected by X-ray photoelectron spectroscopy analysis, and a peak (I CH3 ) which is derived from a hydrocarbon group and present in a range of 2800 cm −1 to 3000 cm −1 and a peak (I COO ) which is derived from COO − and present in a range of 1400 cm −1 to 1600 cm −1 are detected by Fourier transform infrared spectroscopy analysis, wherein a molar ratio of oxygen to sulfur which is acquired by X-ray photoelectron spectroscopy analysis satisfies Formula (1), and a molar ratio of oxygen to zinc which is acquired by X-ray photoelectron spectroscopy analysis satisfies Formula (2), 0.20≤O/S≤0.80  (1) 0.30≤O/Zn≤1.10  (2) wherein two or more kinds of ligands are coordinated, wherein both of a ligand A which is represented by Formula (A) and contains a carboxyl group and a ligand B which is represented by Formula (B) and contains a mercapto group are coordinated, R 1 —COOH  (A) R 2 —SH  (B) where R 1 and R 2 in Formulae (A) and (B) each independently represent an organic group, and wherein both of R 1 and R 2 in Formulae (A) and (B) represent a linear aliphatic hydrocarbon group. 2. The semiconductor nanoparticle according to claim 1 , wherein a ratio of peak intensity between the peak (I CH3 ) and the peak (I COO ) satisfies Formula (3) 0.22≤ I COO /I CH3 ≤0.42  (3). 3. The semiconductor nanoparticle according to claim 1 , wherein both of R 1 and R 2 in Formulae (A) and (B) represent an aliphatic hydrocarbon group having 8 to 25 carbon atoms. 4. The semiconductor nanoparticle according to claim 1 , wherein the ligand A is at least one ligand selected from the group consisting of decanoic acid, lauric acid, myristic acid, palmitic acid, stearic acid, behenic acid, oleic acid, and erucic acid, and the ligand B is at least one ligand selected from the group consisting of dodecanethiol, octanethiol, decanethiol, tetradecanethiol, hexadecanethiol, HS—(CH2)m-OH (in the formula, m represents an integer of 11 to 16), and HS—(CH2)m-(O—CH2CH2)n-OCH3 (in the formula, m represents an integer of 11 to 16, and n represents an integer of 3 to 6). 5. The semiconductor nanoparticle according to claim 4 , wherein the ligand A is oleic acid, and the ligand B is dodecanethiol. 6. The semiconductor nanoparticle according to claim 1 , comprising: a core which contains a Group III element and a Group V element; and a shell which contains a Group II element and a Group VI element that cover at least a part of a surface of the core. 7. The semiconductor nanoparticle according to claim 6 , wherein the Group III element contained in the core is In, and the group V element contained in the core is any of P, N, and As. 8. The semiconductor nanoparticle according to claim 7 , wherein the Group III element contained in the core is In, and the Group V element contained in the core is P. 9. The semiconductor nanoparticle according to claim 6 , wherein the core further contains a Group II element. 10. The semiconductor nanoparticle according to claim 9 , wherein the Group II element contained in the core is Zn. 11. The semiconductor nanoparticle according to claim 1 , comprising: a core which contains a Group III element and a Group V element; a first shell which covers at least a part of a surface of the core; and a second shell which covers at least a part of the first shell. 12. The semiconductor nanoparticle according to claim 11 , wherein the first shell contains a Group II element or a Group III element, where, in a case where the first shell contains a Group III element, the Group III element contained in the first shell is a Group III element different from the Group III element contained in the core. 13. The semiconductor nanoparticle according to claim 11 , wherein the first shell is a Group II-VI semiconductor which contains a Group II element and a Group VI element or a Group III-V semiconductor which contains a Group III element and a Group V element, where, in a case where the first shell is the Group III-V semiconductor, the Group III element contained in the Group III-V semiconductor is a Group III element different from the Group III element contained in the core. 14. The semiconductor nanoparticle according to claim 13 , wherein, in a case where the first shell is the Group II-VI semiconductor, the Group II element is Zn and the Group VI element is Se or S, and in a case where the first shell is the Group III-V semiconductor, the Group III element is Ga and the Group V element is P. 15. The semiconductor nanoparticle according to claim 13 , wherein the first shell is the Group III-V semiconductor, the Group III element is Ga, and the Group V element is P. 16. The semiconductor nanoparticle according to claim 11 , wherein the second shell is a Group II-VI semiconductor which contains a Group II element and a Group VI element or a Group III-V semiconductor which contains a Group III element and a Group V element. 17. The semiconductor nanoparticle according to claim 16 , wherein the second shell is the Group II-VI semiconductor, the Group II element is Zn, and the Group VI element is S. 18. The semiconductor nanoparticle according to claim 11 , wherein the core, the first shell, and the second shell are respectively a crystal system having a zinc blende structure. 19. The semiconductor nanoparticle according to claim 11 , wherein, among the core, the first shell, and the second shell, a band gap of the core is the smallest, and the core and the first shell respectively have a type 1 band structure. 20. A dispersion liquid comprising: the semiconductor nanoparticle according to claim 1 . 21. A film comprising: the semiconductor nanoparticle according to claim 1 . 22. A method of producing a semiconductor nanoparticle for synthesizing the semiconductor nanoparticle according to claim 1 , comprising: a mixing step of mixing a semiconductor nanoparticle QD to which one or both of a ligand A which is represented by Formula (A) and contains a carboxyl group and a ligand B which is represented by Formula (B) and contains a mercapto group are not coordinated, the ligand A, and the ligand B, R 1 —COOH  (A) R 2 —SH  (B) where R 1 and R 2 in Formulae (A) and (B) each independently represent an organic group, wherein both of R 1 and R 2 in Formulae (A) and (B) represent a linear aliphatic hydrocarbon group. 23. The method of producing a semiconductor nanoparticle according to claim 22 , wherein the semiconductor nanoparticle QD, the ligand A, and the ligand B are mixed at a molar ratio that satisfies Formulae (4) and (5) 0.1≤(ligand A /ligand B )≤10  (4) 10≤{semiconductor nanoparticle QD /(ligand A /ligand B )}≤1000  (5). 24. The method of producing a semiconductor nanoparticle according to claim 22 , wherein the semiconductor nanoparticle QD, the ligand A, and the ligand B are mixed at a molar ratio that satisfies Formulae (4′) and (5′) 0.5≤(ligand A /ligand B )≤5  (4′) 100≤{semiconductor nanoparticle QD /(ligand A /ligand B )}≤300  (5′). 25. The method of producing a semiconductor nanoparticle according to claim 22 , wherein the semiconductor nanoparticle QD, the ligand A, and the ligand B are mixed in a temperature range of 20° C. to 100° C. 26. The method