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1. Perturbing the O–H…O Hydrogen Bond in 1-oxo-3-hydroxy-2-propene

2. Unusual Complexes of P(CH)3 with FH, ClH, and ClF

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3. N…C and S…S Interactions in Complexes, Molecules, and Transition Structures HN(CH)SX:SCO, for X = F, Cl, NC, CCH, H, and CN

4. Complexes of CO2 with the Azoles: Tetrel Bonds, Hydrogen Bonds and Other Secondary Interactions

5. Halogen Bonding Involving CO and CS with Carbon as the Electron Donor

6. H2XP:OH2 Complexes: Hydrogen vs. Pnicogen Bonds

7. Mutual Influence of Pnicogen Bonds and Beryllium Bonds: Energies and Structures in the Spotlight

8. Calculated coupling constants 1 J(X-Y) and 1 K(X-Y), and fundamental relationships among the reduced coupling constants for molecules Hm X-YHn , with X, Y ═ 1 H, 7 Li, 9 Be, 11 B, 13 C, 15 N, 17 O, 19 F, 31 P, 33 S, and 35 Cl

9. Chemical Evolution II: From the Origins of Life to Modern Society

10. What Types of Noncovalent Bonds Stabilize Dimers (XCP)2, for X = CN, Cl, F, and H?

11. Probing C⋯S chalcogen bonds in complexes SC:SHX, for X = NO2, NC, F, Cl, CN, CCH, and NH2

12. 1,2-dihydro-1,3,2-diazaborinine tautomer as an electron-pair donor in hydrogen-bonded complexes

13. IR and NMR properties of N-base:PH2F:BeX2 ternary and corresponding binary complexes stabilised by pnicogen and beryllium bonds

14. Microsolvation of the Be-F bond in complexes of BeF2, BeF3–1, and BeF4–2 with nH2O, for n = 1–6

15. Hydrogen bonds and halogen bonds in complexes of carbones L→C←L as electron donors to HF and ClF, for L = CO, N

16. Reaction of ClF and Cl2 with PH2X: The oxidation of P(III) to P(V)

18. Halogen bonding with carbene bases

19. Carbenes as Electron-Pair Donors To CO2 for C···C Tetrel Bonds and C–C Covalent Bonds

20. Complexes H

21. Calculated coupling constants

22. Complexes H2CO:PXH2 and HCO2H : PXH2 for X=NC, F, Cl, CN, OH, CCH, CH3, and H: Pnicogen Bonds and Hydrogen Bonds

23. Potential Energy Surfaces of HN(CH)SX:CO

24. N

26. Using one halogen bond to change the nature of a second bond in ternary complexes with P⋯Cl and F⋯Cl halogen bonds

27. Solid-state chemistry and applications: general discussion

28. Computational approaches and sigma-hole interactions: general discussion

29. Using (FH)2 and (FH)3 to Bridge the σ-Hole and the Lone Pair at P in Complexes with H2 XP, for X=CH3 , OH, H, CCH, F, Cl, NC, and CN

30. Pnicogen bonds in complexes with CO and CS: differentiating properties

31. Can a Cl−H···F Hydrogen Bond Replace a Cl···F Halogen Bond? H2XP:ClY:ZH versus H2XP:ClY:HZ for Y, Z = F, Cl

32. Exploring N…C tetrel and O…S chalcogen bonds in HN(CH)SX:OCS systems, for X = F, NC, Cl, CN, CCH, and H

33. Complexes of CO2 with the Azoles: Tetrel Bonds, Hydrogen Bonds and Other Secondary Interactions

34. Complexes of O=C=S with Nitrogen Bases: Chalcogen Bonds, Tetrel Bonds, and Other Secondary Interactions

35. Unusual acid–base properties of the P4 molecule in hydrogen-, halogen-, and pnicogen-bonded complexes

36. Properties of cationic pnicogen-bonded complexes F4-nHnP+:N-base with H–P···N linear andn= 1–4

37. Properties of Cationic Pnicogen-Bonded Complexes F4–nHnP+:N-Base with F–P···N Linear and n = 0–3

38. P···N Pnicogen Bonds in Cationic Complexes of F4P+ and F3HP+ with Nitrogen Bases

39. Hydrogen and Halogen Bonding in Cyclic FH

40. Hydrogen and Halogen Bonding in Cyclic FH(4- n):FCln Complexes, for n = 0-4

41. Can HNNH, FNNH, or HNCHOH bridge the σ-hole and the lone pair at P in binary complexes with H2XP, for X = F, Cl, NC, OH, CN, CCH, CH3, and H?

42. Using beryllium bonds to change halogen bonds from traditional to chlorine-shared to ion-pair bonds

43. Carbon-Carbon Bonding between Nitrogen Heterocyclic Carbenes and CO

44. Beyond the halogen bond: general discussion

45. The halogen bond in solution: general discussion

46. Azines as Electron-Pair Donors to CO

47. Carbenes as Electron-Pair Donors To CO

48. Pnicogen Bonded Complexes of PO2X (X = F, Cl) with Nitrogen Bases

49. Carbenes as Electron-Pair Donors for P⋅⋅⋅C Pnicogen Bonds

50. Lone-Pair Hole on P: P···N Pnicogen Bonds Assisted by Halogen Bonds