Publications

Recent Publications:

Toward carbon nanotube-based imaging agents for the clinic

Sub-cellular partitioning and analysis of Gd3+-loaded ultra-short single-walled carbon nanotubes

Anthropogenic carbon nanotubes found in the airways of Parisian children

Encapsulation of alpha-particle emitting actinium-225 ions within carbon nanotubes

A new imaging platform for visualizing biological effects of non-invasive radiofrequency electric-field cancer hyperthermia

Radiofrequency electric-field heating behaviors of highly enriched semiconducting and metallic single-walled carbon nanotubes

Surfactant-free Gd3+ ion-containing carbon nanotube MRI contrast agents for stem cell labeling

Encapsulation of alpha-particle-emitting actinium-225 ions within carbon nanotubes

Relaxivity enhancement of aquated tris(β-diketonate)gadolinium(III) chelates by confinement within ultrashort single-walled carbon nanotubes

Stable confinement of positron emission tomography and magnetic resonance agents within carbon nanotubes for biomedical imaging

Geometrical confinement of Gd(DOTA) molecules within mesoporous silicon nanoconstructs for MR imaging of cancer

Hierarchically-structured magnetic nanoconstructs with enhanced relaxivity and cooperative tumor accumulation

Hyperthermia inhibits recombination repair of gemcitabine-stalled replication forks

Gold nanoparticles and radiofrequency in experimental models for hepatocellular carcinoma

Relaxivity enhancement of aquated Tris (β-diketonate)gadolinium (III) chelates by confinement within ultrashort single-walled carbon nanotubes

The use of gadolinium-carbon nanostructures to magnetically enhance stem cell retention for cellular cardiomyoplasty

Full Publication List:

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1. L. J. Wilson and N. J. Rose, “Geometrically Specific Multidentate Ligands and Their Complexes I. A Nickel(II) Complex of the Potentially Heptadentate Schiff Base Derived from 2,2′,2″-Triaminotriethylamine and 2-Pyridinecarboxaldehyde,” J. Am. Chem. Soc. 1968, 90, 6041.

2. L. J. Wilson and I. Bertini, “The Ni(phen)₃²⁺ – Co(phen)₃²⁺ System: An Evaluation of the Dipolar Shift Contribution in the Proton Magnetic Resonance Spectra of Paramagnetic Cobalt(II) Complexes,” J. Chem. Soc. (A) 1971, 489.

3. I. Bertini, D. Gatteschi and L. J. Wilson, “A PMR Investigation of the Paramagnetic Tris(Bipyridine-N,N’-Dioxide) Nickel(II) and Colbalt(II) Complexes,” Inorg. Chem. Acta 1970, 4, 629.

4. L. J. Wilson and I. Bertini, “Cis –Trans Isomerism in Solution for the Tris(N-p-tolyl)-pyridinaldimine)-Colbalt(II) Cation,” Chem. Comm. 1970, 1589.

5. L. J. Wilson and I. Bertini, “NMR Detection of Cis and Trans Isomers of Pseudooctahedral Metal(II) Complexes with the Unsymmetrical Bidentate N-R-Pyridinaldimine Ligands,” J. Coord. Chem. 1972, 1, 237.

6. E. C. Lingafelter, L. C. Andrews, R. M. Kirchner, N. J. Rose and L. J. Wilson, “Partial Hydrolysis of a Schiff Base Ligand Coordinated to Copper(II),” Coord. Chem. Rev. 1972, 8, 54.

7. M. Hoselton, L. J. Wilson and R. S. Drago, “Substituent Effects on the Spin-Equilibrium Observed with Hexadentate Ligands on Iron(II),” J. Am. Chem. Soc. 1975, 97, 1722.

8. L. J. Wilson, D. Georges and M. Hoselton, “An Electronic Spectral Study of Some Fe(II) Magnetic Isomers in Solution and a Spectral-Structural Correlation with Their Ni(II) Analogs,” Inorg. Chem. 1975, 14, 2968.

9. M. F. Tweedle and L. J. Wilson, “Variable-Spin Iron(III) Chelates with Hexadentate Ligands Derived from Triethylenetetramine and Various Salicylaldehydes. Synthesis, Characterization, and Solution State Studies of a New ²T  ⁶A Spin Equilibrium Process,” J. Am. Chem. Soc. 1976, 98, 4824.

10. M. A. Hoselton, R. S. Drago, L. J. Wilson and N. Sutin, “Direct Measurement of Spin State Lifetimes in Solution for Some Iron(II) Spin-Equilibrium Complexes Derived from Hexadentate Ligands,” J. Am. Chem. Soc. 1976, 98, 6967.

11. E. V. Dose, K. M. M. Murphy and L. J. Wilson, “Synthesis and Spin State Studies in Solution of -Substituted Tris(-Diketone) Iron(III) Complexes and Their Spin-Equilibrium -Ketoimine Analogs Derived from Triethylenetetramine,” Inorg. Chem. 1976, 15, 2622.

12. M. G. Simmons and L. J. Wilson, “Magnetic and Spin Lifetime Studies in Solution of a S = 1 Spin -Equilibrium Process for Some Bis(N-R-2,6-Pyridindialdimine)Cobalt(II) Complexes,” Inorg. Chem. 1977, 16, 126.

13. K. R. Kunze, D. L. Perry and L. J. Wilson, “Synthesis and Variable-Temperature Magnetochemical and Mössbauer Spectroscopy Studies of Tris(Monothiocarbamato)iron(III) Complexes: A New ²T  ⁶A Spin-Equilibrium System Containing the FeS₃O₃ Core,” Inorg. Chem. 1977, 16, 594.

14. E. V. Dose, M. F. Tweedle, L. J. Wilson and N. Sutin, “A Direct Measurement of Dynamic Spin-Interconversion Rates in the Spin-Equilibrium Protein Ferric Myoglobin Hydroxide,” J. Am. Chem. Soc. 1977, 99, 3886.

15. G. Sim, E. Sinn, E. V. Dose, M. F. Tweedle and L. J. Wilson, “Electronic and Molecular Structure of Variable-Spin Iron(III) Chelates with Hexadentate Ligands Derived from Triethylenetetramine and -Diketones or Salicylaldehyde. Spin State Dependent Crystal and Molecular Structures of [Fe(acac)₂trien]PF₆ (S=5/2), [Fe(acacCl)₂trien]PF₆ (S=5/2), [Fe(sal)₂trien[Cl2H₂O (S=1/2), and [Fe(sal)₂trien]NO₃H₂O (S=1/2),” J. Am. Chem. Soc. 1978, 100, 3375.

16. E. V. Dose, M. A. Hoselton, N. Sutin, M. F. Tweedle and L. J. Wilson, “Dynamics of Intersystem Crossing Processes in Solution for Six-Coordinate d⁵, d⁶, and d⁷ Spin-Equilibrium Complexes of Iron and Cobalt,” J. Am. Chem. Soc. 1978, 100, 1141.

17. M. F. Tweedle and L. J. Wilson, “A Faraday Magnetic Balance Capable of High Resolution Measurements on Metalloprotein Solutions from 6.5-300 K,” Rev. Sci. Instrum. 1978, 49, 1001.

18. R. H. Petty, E. V. Dose, M. F. Tweedle and L. J. Wilson, “Bis(N-methylethylene-diaminesalicylaldimato)iron(III) Complexes. Magnetic, Mössbauer and Intersystem Crossing Rate Studies in the Solid and Solution States for a New (S=1/2) ä (S=5/2) Spin-Equilibrium Case,” Inorg. Chem. 1978, 17, 1064.

19. K. A. Reeder, E. V. Dose and L. J. Wilson, “Solution State Spin-Equilibrium Properties for the Tris[2-(2′-pyridyl)-imidazole]iron(II) and Tris[2-(2′-pyridyl)benzimidazole]iron(II) Cations,” Inorg. Chem. 1978, 17, 1071.

20. G. Palmer, T. Antalis, G. T. Babcock, L. Garcia-Iniguez, M. F. Tweedle, L. J. Wilson and L. Vickery, “Electronic States of Heme in Cytochrome Oxidase,” Mechanisms of Oxidizing Enzymes 1978, T. P. Singer and R. Ondarza, Ed., Elsevier North Holland Press, p. 222.

21. E. F. Hasty, L. J. Wilson and D. N. Hendrickson, “Magnetic Exchange Interactions in Transition Metal Dimers: Binuclear Copper(II) Schiff Base Compounds of Salicylaldehyde with Aromatic Polyamine,” Inorg. Chem. 1978, 17, 1834.

22. E. V. Dose and L. J. Wilson, “Synthesis, and Electrochemical and Photoemission Properties of Mononuclear and Binuclear Ruthenium(II) Complexes Containing 2,2′-Bipyridine, 2,9 Dimethyl-1,10-Phenanthroline, 2,2′-Bipyrimidine, 2,2′-Biimidazole, and 2-Pyridinaldimine Ligands,” Inorg. Chem. 1978, 17, 2660.

23. R. H. Petty and L. J. Wilson, “Cytochrome Oxidase Models: A Binuclear Iron-Copper Site with a Bipyrimidine Bridge,” Chem Comm. 1978, 483.

24. M. G. Simmons and L. J. Wilson, “A Hemocyanin Model: A Synthetic Cu(I) Complex Having Imidazole Ligands and Reversible Dioxygen Activity,” Chem. Comm. 1978, 634.

25. R. A. Binstead, J. K. Beattie, E. V. Dose, M. F. Tweedle and L. J. Wilson, “Intersystem Crossing Observed by Ultrasonic Relaxation of the ²T  ⁶A Spin-Equilibrium of Hexadentate Iron(III) Complexes in Solution,” J. Am. Chem. Soc. 1978, 100, 5609.

26. M. F. Tweedle, L. J. Wilson, L. Garcia-Iniguez, G. T. Babcock and G. Palmer, “The Magnetic Susceptibility of Beef Heart Cytochrome Oxidase and Some of Its Derivatives from 7-200 K. Direct Evidence for an Antiferromagnetically Coupled Fe(III)/Cu(II) Pair,” J. Biol. Chem. 1978, 22, 8065.

27. “Copper(I) Complex Mimics Hemocyanin,” A Research Report by Chem. and Eng. News September 25, 1978, p. 50.

28. M. G. Simmons, C. L. Merrill, L. J. Wilson, L. A. Bottomley and K. M. Kadish, “{Bis-2,6[1-(2-imidazol-4-ylethylimino)ethyl]pyridine}copper(I) Cation: A Synthetic Cu(I) Oxygen-Carrier in Solution as a Potential Model for Oxyhemocyanin,” J. Chem. Soc. Dalton Trans. 1980, 1827.

29. R. H. Petty, B. R. Welch, L. J. Wilson, L. A. Bottomley and K. M. Kadish, “Cytochrome Oxidase Models. -Bipyrimidyl Mixed-Metal Complexes as Synthetic Models for the Iron/Copper Binuclear Active Site in Cytochrome Oxidase,” J. Am. Chem. Soc. 1980, 102, 611.

30. J. D. Korp, I. Bernal, C. L. Merrill and L. J. Wilson, “Crystal and Molecular Structure of the {Bis-2,6-[1-(2-imidazol-4-ylethyl-imino)ethyl]pyridine}copper(II) and Zinc(II) Cations: Pentacoordinate Relatives of a Copper(I) Oxygen-Carrier,” J. Chem. Soc. Dalton Trans. 1981, 1951.

31. K. M. Kadish, K. Das, D. Schaeper, C. L. Merrill, B. R. Welch and L. J. Wilson, “Spin State Dependent Redox Properties of the [Fe(III)(X-Sal₂trien)]⁺ Spin-Equilibrium System in Solution,” Inorg. Chem. 1980, 19, 2816.

32. G. Sim, E. Sinn, R. H. Petty, C. L. Merrill and L. J. Wilson, “Electronic and Molecular Structure of Variable-Spin Metal Complexes. Spin State Dependent Crystal and Molecular Structures of [Fe^III(5-OCH₃SalMeen)₂PH₆ (S=1/2), [Fe^III(3-OCH₃SalMeen)₂PH₆ (S=1/2), and [Fe^III(5-NO₂SalMeen)₂PH₆ (S=1/2),” Inorg. Chem. 1981, 20, 1213.

33. S. E. Dessens, C. L. Merrill, R. J. Saxton, R. L. Ilaria, J. W. Lindsey and L. J. Wilson, “Cytochrome Oxidase Models. Spin Coupling Across Imidazolate Bridges in Binuclear Metalloporphyrin Complexes of Iron and Copper,” J. Am. Chem. Soc. 1982, 104, 4357.

34. L. J. Wilson, C. L. Merrill, M. G. Simmons, J. M. Trantham, L. A. Bottomley and K. M. Kadish, “Synthetic Copper(I) Oxygen-Carriers as Hemocyanin Model Compounds,” chapter in Invertebrate Oxygen Binding Proteins. Structure, Active Site, and Function, J. Lamy and J. Lamy Ed., Marcel Dekker, Inc., New York, 1981, p. 571.

35. D. L. Perry, L. J. Wilson, K. R. Kunze, L. Maleki, P. Deplano and E. F. Trogu, “Low-Temperature Magnetochemical and Spectroscopic Studies of Variable-Spin Tris(monothio-carbamato)iron(III) and Tris(diselenocarbamato)iron(III) Complexes,” J. Chem. Soc. Dalton Trans. 1981, 1294.

36. K. M. Kadish, C. H. Su and L. J. Wilson, “Spin State Dependence of Heterogeneous Electron Transfer Rates for the [Fe^III(X-Sal)₂trien]⁺ Spin-Equilibrium System in Solution,” Inorg. Chem. 1982, 21, 2312.

37. K. M. Kadish, C. H. Su, D. Schaeper, C. L. Merrill and L. J. Wilson, “The Effect of Spin State on the Redox and Electron Transfer Properties of the Variable-Spin Family of [Fe^II(6 MePy)_n (Py)_3-ntren](PF₆)₂ Complexes in Solution,” Inorg. Chem. 1982, 21, 3433.

38. P. Deplano, E. F. Trogu, F. Bigoli, E. Leporati, M. A. Pellinghelli, D. L. Perry, R. J. Saxton and L. J. Wilson, “Synthesis and Magnetochemical, Spectroscopic, and Structural Studies of New Tris(N,N-dialkyldiselenocarbamato)iron(IV) Tetrafluoroborate Complexes,” J. Chem. Soc. Dalton Trans. 1983, 25.

39. R. J. Saxton, L. W. Olsen and L. J. Wilson, “Cytochrome c Oxidase Models. A -Oxo Mixed-Metal Complex of Copper(II) and an Iron(III) Porphyrin as a Resting State Model for the Cytochrome c Oxidase Active Site,” Chem. Commun. 1982, 984.

40. T. Zhu, C. H. Su, B. K. Lemke, L. J. Wilson and K. M. Kadish, “Redox Reactions of Variable-Spin Six-Coordinate Bis(N-R-2,6-pyridine-dicarboxaldimine)cobalt(II) Complexes,” Inorg. Chem. 1983, 22, 2527.

41. L. J. Wilson, V. Chunplang, B. K. Lemke, C. L. Merrill, R. J. Saxton and M. L. Watson, “Modeling Studies of the Iron/Copper Binuclear Active Site of Bovine Cytochrome c Oxidase,” Inorg. Chim. Acta Bioinorg. 1983, 79, 107.

42. C. L. Merrill, T. J. Thamann, T. M. Loehr, N. S. Ferris, W. H. Woodruff and L. J. Wilson, “Synthesis and Characterization of Imidazole-bearing Copper(I) Complexes and Their Reversible Reaction with Dioxygen,” J. Chem. Soc. Dalton Trans. 1984, 2207.

43. R. J. Saxton and L. J. Wilson, “Cytochrome c Oxidase Models. A -Imidazolato Complex of Copper(II) and Iron(III) Derived from an Appended-Tail Porphyrin,” Chem. Commun. 1984, 359.

44. T. Zhu, C. H. Su, D. Schaeper, B. K. Lemke, L. J. Wilson and K. M. Kadish, “Solvent and Structure Effects on the Spin-Crossover and Electron-Transfer Properties of [Fe^III(X Salmeen)₂] (PF₆) and [Fe^III(X-Sal)₂trien](PF₆) Complexes,” Inorg. Chem. 1984, 23, 4345.

45. J. A. Goodwin, D. M. Stanbury, L. J. Wilson and R. A. Scott, “Reversible Reactions of Dioxygen with Synthetic Copper(I) Complexes under Ambient Conditions,” Copper Coordination Chemistry II. Biochemical and Inorganic Perspectives, Karlin and Zubieta, Eds., Adenine Press, New York, 1985, p. 11.

46. V. Chunplang and L. J. Wilson, “Cytochrome Oxidase Models. A -Imidazolato Complex from Copper(II) and [Mn^II(TPP)] with Magnetic and E.S.R. Signature of the Cytochrome c Oxidase Active Site,” Chem. Commum. 1985, 1761.

47. “Metals in Biological Processes” (Book Review), Inorg. Chim. Acta 1984, 92, 165.

48. P. Bergamini, P. Deplano, L. J. Wilson, S. Sostero and O. Traverso, “Dioxygen Activation in the Photochemistry of Some Oxo-Metalloporphyrin Complexes,” J. Chem. Soc. Dalton Trans. 1986, 2311.

49. R. M. Kirchner, C. Mealli, L. Andrews, M. Bailey, N. Howe, L. Torre, L. J. Wilson, N. J. Rose and E. C. Lingafelter, “The Variable Coordination Chemistry of a Potentially Heptadentate Ligand with the 3d^5-10 Series of Metal(II) Ions. The Chemistry and Molecular Structures of the [M^II(py₃tren)]²⁺ Cations with M = Mn, Fe, Co, Ni, Cu, Zn, and (py₃tren) = N[CH₂CH₂N = C(H)(C₅H₆N)]₃,” Coord. Chem. Rev. 1987, 77, 89.

50. J. A. Goodwin, D. M. Stanbury, L. J. Wilson, C. W. Eigenbrot and W. R. Scheidt, “Molecular Structures and Electron-Transfer Kinetics for Some Pentacoordinate Cu^I/Cu^II Redox-Active Pairs,” J. Am. Chem. Soc. 1987, 109, 2979.

51. M. F. Tweedle, G. T. Gaughan, J. Hagen, P. W. Wedeking, L. J. Wilson and D. W. Lee, “Characterization of Paramagnetic Coordination Compounds as Potentially Useful NMR Contrast Agents,” Nucl. Med. Biol. 1988, 15, 31.

52. J. A. Goodwin, D. M. Stanbury, L. J. Wilson, G. A. Bodager and W. R. Scheidt, “Reaction of Dioxygen with Synthetic Copper(I) Compounds of Biological Relevance,” Oxygen Complexes and Oxygen Activation by Transition Metals, A. E. Martell and D. T. Sawyer, Ed., Plenum Press, 1988, p. 328.

53. J. A. Goodwin, G. A. Bodager, L. J. Wilson, D. M. Stanbury, and W. R. Scheidt, “The Pentacoordinate [Cu^I(imidH)₂DAP]⁺ Cation: Its Structural Verification, Ligand Rearrangement, and Deceptive Reaction with Dioxygen,” Inorg. Chem. 1989, 28, 35.

54. J. A. Goodwin, L. J. Wilson, D. M. Stanbury and R. A. Scott, “Ligand-Substitution and Electron-Transfer Reactions of Pentacoordinate Copper(I) Complexes,” Inorg. Chem. 1989, 28, 42.

55. R. E. Haufler, J. Conceicao, L. P. F. Chibante, Y. Chai, N. E. Byrne, S. Flanagan, M. M. Haley, S. C. O’Brien, C. Pan, Z. Xiao, W. E. Billups, M. A. Ciufolini, R. H. Hauge, J. L. Margrave, L. J. Wilson, R. F. Curl and R. E. Smalley, “Efficient Production of C₆₀ (Buckminsterfullerene), C₆₀H₃₆, and the Solvated Buckide Ion,” J. Phys. Chem. 1990, 94, 8634.

56. D. K. Coggin, J. A. González, A. M. Kook, D. M. Stanbury and L. J. Wilson, “Ligand Dynamics in Pentacoordinate Copper(I) and Zinc(II) Complexes,” Inorg. Chem. 1991, 30, 1115.

57. D. K. Coggin, J. A. González, A. M. Kook, W. R. Scheidt, D. M. Stanbury and L. J. Wilson, “An Electron Self-Exchange Study of the Coordination-Number-Invariant Pentacoordinate Copper(I/II) Couple, [Cu^I,II((5-MeimidH)₂DAP)]^+/2+,” Inorg. Chem. 1991, 30, 1125.

58. S. A. Moy, J. E. Bradshaw, D. W. Lee and L. J. Wilson, “Reinvestigation of a  Imidazolato [Mn(III)-Cu(II)] Metalloporphyrin Complex with Novel ESR Characteristics,” Inorg. Chim. Acta Lett. 1991, 179, 7.

59. J. D. Hazle, L. Hefner, L. J. Wilson, C. E. Nyerick and A. L. Boyer, “Dose Response Characteristics of a Ferrous Sulfate Doped Gelatin System for Determining Radiation Absorbed Dose Distributions by Magnetic Resonance Imaging (FeMRI),” Phys. Med. Biol. 1991, 36, 1117.

60. K. D. Karlin, Z. Tyeklár, A. Farooq, R. R. Jacobson, E. Sinn, D. W. Lee, J. E. Bradshaw and L. J. Wilson, “Peroxide (O₂^2–) as a Bridging Ligand for Copper(II): Strong Exchange Coupling in Complexes Derived from Copper(I) and Dioxygen,” Inorg. Chim. Acta Lett. 1991, 182, 1.

61. D. Dubois, K. M. Kadish, S. Flanagan, R. E. Haufler, L. P. F. Chibante and L. J. Wilson, “Spectroelectrochemical Study of the C₆₀ and C₇₀ Fullerenes and Their Mono-, Di-, Tri- and Tetraanions,” J. Am. Chem. Soc. 1991, 113, 4364.

62. D. Dubois, K. M. Kadish, S. Flanagan and L. J. Wilson, “Electrochemical Detection of Fulleronium and Highly-Reduced Fulleride (C₆₀^5–) Ions in Solution,” J. Am. Chem. Soc. 1991, 113, 7773.

63. S. Flanagan, J. A. González, J. E. Bradshaw, D. M. Stanbury, W. R. Scheidt and L. J. Wilson, “Copper Chemistry of Biological Relevance: A New Macrocyclic [Cu^I,IIN₂S₂]^+/2+ Couple,” J. Inorg. Biochem. 1991, 43, 203.

64. D. W. Lee, V. Chunplang, J. E. Bradshaw, G. Baker, A. Jain, M. Noguchi, J. Schoonover, G. Palmer and L. J. Wilson, “Magnetic Properties of the Cytochrome c Oxidase Active Site,” J. Inorg. Biochem. 1991, 43, 325.

65. L. J. Wilson, S. Flanagan, L. P. F. Chibante and J. M. Alford, “Fullerene Electrochemistry: Detection, Generation, and Study of Fulleronium and Fulleride Ions in Solution,” in Buckminsterfullerenes, W. E. Billups and M. A. Ciufolini Eds.,VCH, Chapter 11, 285, 1993.

66. L. J. Wilson, S. Flanagan, V. Khabashesku, M. Alford, F. Chibante, M. Diener, C. Fargason and E. Roche, “Electrochemical Studies and Syntheses of Fulleride-Derived Materials,” in World Congress on Superconductivity: Proceedings of the 3rd International Conference and Exhibition, K. Krishen and C. G. Burnham, Eds., Permagon Press, 913, 1993.

67. S. Flanagan, J. A. González, J. E. Bradshaw, L. J. Wilson, D. M. Stanbury, K. J. Haller and W. R. Scheidt, “Studies of CNI Copper Coordination Compounds: What Determines the Electron-Transfer Rate of the Blue Copper Proteins?,” in Copper Coordination Chemistry: Bioinorganic Perspectives, Chapman and Hall, 112, 1993.

68. C. A. Chang, L. C. Francesconi, M. F. Malley, J. Z. Gougoutas, M. F. Tweedle, D. W. Lee and L. J. Wilson, “Syntheses, Molecular Structures, and Solution Relaxivities of [Fe(DO3A)], Na[FeDOTA)], [Gd(DO3A)],” Inorg. Chem. 1993, 32, 3501-3508.

69. S. Flanagan, J. A. González, J. E. Bradshaw, D. M. Stanbury, K. J. Haller, W. R. Scheidt and L. J. Wilson, “Electron-Transfer Studies of Tetrahedral Macrocyclic Coordination-Number-Invariant Copper Complexes,” J. Inorg. Biochem. 1993, 51, 49.

70. S. Moghaddas, J. E. Bradshaw, T. C. Arnst, K. H. Whitmire and L. J. Wilson, “Synthesis and Characterization of New Mono- and Tetrathioporphyrin Compounds,” J. Inorg. Biochem. 1993, 51, 72.

71. M. F. Tweedle, L. J. Wilson, J. E. Bradshaw and D. L. Lee, “Paramagnetic metalloporphyrins as contrast agents for magnetic resonance imaging,” U. S. Patent No. 5,262,532 (1993).

72. J. A. González and L. J. Wilson, “Spin-State Isomerism in Crystalline [Fe^III(TPP)(OSO₂CF₃)],” Inorg. Chem. 1994, 33, 1543-1553.

73. J. E. Bradshaw, S. Moghaddas and L. J. Wilson, “Toward Synthetic Analogues of the Sulfite Reductase Active Site: Insertion of Tetraphenylporphyrinmonothiolate into the [Fe₄S₄]²⁺ Cubane Cluster Core,” Gazz. Chim. It. 1994, 124, 159.

74. S. A. Moy, J. A. González and L. J. Wilson, “Molecular Stereochemistry of [Fe^III(TPP)(OCOCF₃)],” Acta. Cryst. 1995, C51, 1490-1494.

75. Y. Yang, F. Arias, L. Echegoyen, L. P. F. Chibante, S. Flanagan, A. Robertson, and L. J. Wilson, “Reversible Fullerene Electrochemistry: Correlation with the HOMO-Lumo Energy Difference for C₆₀, C₇₀, C₇₆, C₇₈ and C₈₄,” J. Am. Chem. Soc. 1995, 117, 7801-7804.

76. K. L. S. Lawrence, G. J. Ehrhardt, D. W. Cagle, T. P. Thrash and L. J. Wilson, “Fullerene Radiopharmaceuticals? High-Flux Neutron Irradiation Study of C₆₀,” in Fullerenes: Recent Advances in the Chemistry and Physics of Fullerenes and Related Materials: Vol. 2, K. Kadish and R. S. Ruoff, Eds., The Electrochemistry Society, 1995, 66-71.

77. Y. Yang, F. Arias, L. Echegoyen, S. Flanagan, A. Robertson, L. J. Wilson and L. P. F. Chibante, “Anodic and Cathodic Electrochemistry of Higher Fullerenes,” in Fullerenes: Recent Advances in the Chemistry and Physics of Fullerenes and Related Materials: Vol. 2, K. Kadish and R. S. Ruoff, Eds., The Electrochemistry Society, 1995, 306-313.

78. D. W. Cagle, T. P. Thrash, M. Alford, L. P. F. Chibante, G. J. Ehrhardt and L. J. Wilson, “Synthesis, Characterization and Neutron Activation of Holmium Metallofullerenes,” J. Am. Chem. Soc. 1996, 118, 8043-8047.

79. D. W. Cagle, T. P. Thrash, L. J. Wilson, G. J. Ehrhardt, M. Alford and L. P. F. Chibante, “Toward Fullerene Radiopharmaceuticals: Neutron Activation of Endohedral ¹⁶⁵Holmium Metallofullerenes,” in Fullerenes: Recent Advances in the Chemistry and Physics of Fullerenes and Related Materials: Vol. 3, K. Kadish and R. S. Ruoff, Eds., The Electrochemistry Society, 1996, 854-869.

80. T. P. Thrash, D. W. Cagle, M. Alford, G. J. Ehrhardt, J. C. Lattimer and L. J. Wilson, “¹⁶⁶Ho Metallofullerenes: Nuclear Medicine Precursors,” in Fullerenes: Recent Advances in the Chemistry and Physics of Fullerenes and Related Materials: Vol. 4, K. Kadish and R. S. Ruoff, Eds., The Electrochemistry Society, 1997, 349-356.

81. R. E. Schinazi, L. Y. Chiang, L. J. Wilson, D. W. Cagle and C. L. Hill, “Anti-Human Immunodeficiency Virus Activity of Polyhydroxy Fullerenes in Vitro,” in Fullerenes: Recent Advances in the Chemistry and Physics of Fullerenes and Related Materials: Vol. 4, K. Kadish and R. S. Ruoff, Eds., The Electrochemistry Society, 1997, 357-360.

82. D. W. Cagle, J. M. Alford, J. Tien and L. J. Wilson, “Gadolinium-Containing Fullerenes for MRI Contrast Agent Applications,” in Fullerenes: Recent Advances in the Chemistry and Physics of Fullerenes and Related Materials: Vol. 4, K. Kadish and R. S. Ruoff, Eds., The Electrochemistry Society, 1997, 361-368.

83. S. Flanagan, J. Dong, K. Haller, S. Wang, W. R. Scheidt, R. A. Scott, T. R. Webb, D. M. Stanbury and L. J. Wilson, “Macrocylic [Cu^I/II(bite)]^+/2+: An Example of Fully-Gated Electron Transfer and its Biological Relevance,” J. Am. Chem. Soc. 1997, 119, 8857-8868.

84. J. E. Bradshaw, K. A. Gillogly, L. J. Wilson, K. Kumar, X. Wan, M. F. Tweedle, G. Hernandez and R. G. Bryant, “New Non-ionic Water-Soluble Porphyrins: Evaluation of Manganese(III) Polyhydoxylamide Porphyrins as MRI Contrast Agents,” Inorg. Chim. Acta. 1998, 275-276, 106-116.

85. B. Xie, T. Elder, L. J. Wilson and D. M. Stanbury, “Internal Reorganization Energies for Copper Redox Couples: The Slow-Electron Transfer Reactions of the [Cu^II/I(bib)₂]^2+/+ Couple,” Inorg. Chem. 1999, 38, 12-19.

86. D. W. Cagle, S. J. Kennel, S. Mirzadeh, J. M. Alford and L. J. Wilson, “In vivo Studies of Fullerene-Based Materials Employing Endohedral Metallofullerene Radiotracers,” Proc. Nat. Acad. Sci. USA 1999, 96, 5182-5187.

87. T. P. Thrash, D. W. Cagle, J. M. Alford, K. Wright, G. J. Ehrhardt, S. Mirzadeh and L. J. Wilson, “Toward Fullerene-Based Radiopharmaceuticals: High Yield Neutron Activation of Endohedral ¹⁶⁵Ho Metallofullerenes,” Chem. Phys. Lett. 1999, 308, 329-336.

88. L. J. Wilson, D. W. Cagle, T. P. Thrash, S. J. Kennel, S. Mirzadeh, J. M. Alford and G. J. Ehrhardt, “Metallofullerene Drug Design,” Coord. Chem. Rev. 1999, 190-192, 199-207.

89. D. W. Cagle, J. M. Alford and L. J. Wilson, “Metallofullerene Sample Analysis by Mass Spectrometry (LD-TOF MS), Neutron-Activation Analysis (NAA) and Inductively-Coupled Plasma Atomic Emission Spectroscopy (ICP-AE),” in Fullerenes: Recent Advances in the Chemistry and Physics of Fullerenes and Related Materials: Vol. 5, K. Kadish and R. S. Ruoff, Eds., The Electrochemistry Society 1999, 250-255.

90. L. J. Wilson, “Medical Applications of Fullerenes and Metallofullerenes,” Interface 1999 8, 24-28.

91. T. Wharton, J. M. Alford, L. O. Husebo and L. J. Wilson, “Paramagnetic Malonodiamide Derivatives of C₆₀ as MRI Contrast Agent Precursors,” in Recent Advances in the Chemistry and Physics of Fullerenes and Related Materials: Vol. 9, K. Kadish and R. S. Ruoff, Eds., The Electrochemistry Society 2000, 258-266.

92. R. B. Weisman and L. J. Wilson, “Undergraduate Experiments in Fullerene Electrochemistry and Photophysics,” in Recent Advances in the Chemistry and Physics of Fullerenes and Related Materials: Vol. 12, K. Kadish and R. S. Ruoff, Eds., The Electrochemistry Society 2000, 7-15.

93. L. J. Wilson, U. Sagman and K. A. Gonzalez, “Fullerene-Based Drugs Targeted to Bone,” U. S. Patent Application Serial No.: 60/199,970, filed April 27, 2000. (Provisional patent)

94. L. J. Wilson and U. Sagman,”Fullerene-Based X-ray Contrast Agent for Diagnostic Imaging,” U. S. Patent Application Serial No.: yet unassigned, filed November 10, 2000.

95. G. J. Ehrhardt and L. J. Wilson, “Fullerene Radiopharmaceuticals,” in Nuclear and Radiation Chemical Approaches to Fullerene Science, Vol. 1, T. Braun, ed., Kluwer Academic Publishers, 2000, 174-177.

96. B Xie, L. J. Wilson and D. M. Stanbury, “Cross-Electron-Transfer Reactions of the [Cu^II/I)(bite)]^2+/+ Redox Couple,” Inorg. Chem. 2001, 40, 3606-3614.

97. T. Wharton, V. U. Kini, R. A. Mortis and L.J. Wilson, “New Non-Ionic, Highly Water-Soluble Derivatives of C₆₀ Designed for Biological Compatibility,” Tetrahedron Lett. 2001, 42, 5159-5162.

98. T. P. Thrash and L. J. Wilson, “Zn(II), Ni(II), Cu(II), and Fe(III) Complexes of Potentially-Bimetallating Tris(Pyridine- and Imidazole-Appended) Picket-Fence Naphthylporphyrins with Benzyl Ether Spacers: Implications for Cytochrome c Oxidase Active-Site Modeling,” Inorg. Chem. 2001, 40, 4556-4562.

99. A. Mirakyan and L. J. Wilson, “Derivatization of C₆₀ with Diphosphonate Groups,” in Recent Advances in the Chemistry and Physics of Fullerenes and Related Materials: Vol. 11, P. V. Kamat, D. M. Guldi and K. Kadish, Eds., The Electrochemistry Society 2001, 270-276.

100. J. M. Alford and L. J. Wilson, “Fullerene Contrast Agent for Magnetic Resonance Imaging and Spectroscopy,” World Patent Publication No. WO 01/24696 A1, 12 April 2001.

101. L. J. Wilson, U. Sagman, K. A. Gonzalez and K. Pritzker, “Fullerene-Based Drugs Targeted to Bone,” U. S. Patent Application Serial No.: 20040038946, filed April 27, 2001.

102. T. Wharton and L. J. Wilson, “Toward Fullerene-based X-ray Contrast Agents: Design and Synthesis of Non-ionic, Highly-iodinated Derivatives of C₆₀,” Tetrahedron Lett. 2002, 43, 561-564.

103. K. A. Gonzalez, L. J. Wilson, W. Wu and G. H. Nancollas, “Synthesis and In Vitro Characterization of a Tissue-Selective Fullerene: Vectoring C₆₀(OH)₁₆AMBP to Mineralized Bone,” Bioorg. Med. Chem. 2002, 10, 1991-1997.

104. J. M. Alford and L. J. Wilson, “Fullerene Contrast Agent for Magnetic Resonance Imaging and Spectroscopy,” U. S. Patent Application No.: 6,355,225 issued March 12, 2002.

105. A. L. Mirakyan and L. J. Wilson, “Functionalization of C₆₀ with Diphosphonate Groups: A Route to Bone-Vectored Fullerenes,” J. Chem. Soc. Perkin Trans. II 2002, 1173-1176.

106. T. Wharton and L. J. Wilson, “Highly-iodinated Fullerene as a Contrast Agent for X-ray Imaging,” Bioorg. Med. Chem. 2002, 10, 3545-3554.

1 07. J. M. Alford and L. J. Wilson, “Fullerene Contrast Agent for Magnetic Resonance Imaging and Spectroscopy,” European Patent Office No. 00972014.5-2305-US0027500, May 5, 2002.

108. A. L. Mirakyan, L. J. Wilson, R. D. Bolskar and M. Alford, “Exploring Holmium Metallofullerenes for Medical Applications,” in The Exciting World of Nanocages and Nanotubes, Vol. 12, 2002, 390-397.

109. R. D. Bolskar, J. M. Alford, A. F. Benedetto, L. O. Husebo and L. J. Wilson, “Development of Gd@C₆₀ Based MRI Contrast Enhancing Agents,” in The Exciting World of Nanocages and Nanotubes, Vol. 12, 2002, 398-406.

110. A. L. Mirakyan and L. J. Wilson, “Design of Water-Soluble Bone-Vectored Fullerenes,” in The Exciting World of Nanocages and Nanotubes, Vol. 12, 2002, 407-413.

111. R. D. Bolskar, A. F. Benedetto, L. O. Husebo, R. E. Price, E. F. Jackson, S. Wallace, L. J. Wilson and J. M. Alford, “First Soluble M@C₆₀ Derivatives Provide Enhanced Access to Metallofullerenes and Permit in Vivo Evaluation of Gd@C₆₀[C(COOH)₂]₁₀ as a MRI Contrast Agent,” J. Am. Chem. Soc. 2003, 125, 5471-5478.

112. L. J. Wilson, J. T. Wharton and U. Sagman, “Fullerene(C₆₀)-Based X-Ray Contrast Agent for Diagnostic Imaging,” U. S. Patent No.: 6,660,248, issued December 9, 2003.

113. L. J. Wilson, A. L. Mirakyan and M. P. Cubbage, “Fullerene (C₆₀) Vancomycin Conjugates as Improved Antibiotics,” U. S. Patent Application 20040241173, filed February 11, 2004.

114. B. Sitharaman, L. J. Wilson, R. D. Bolskar, G. Gonzalez, E. Toth, L. Helm and A. E. Merbach “Dynamic Light Scattering and Relaxometric Studies of Water-Soluble Gd@C₆₀ Derivatives as pH-Responsive MRI Contrast Agents,” in Fullerenes and Nanotubes: Materials for the New Chemical Frontier, Kamat, P. V., Guldi, D. M., D’Souza, F, Fukuzumi, S. Eds.; Fullerenes – 14, The Electrochemical Society: Pennington, NJ, (2004), Vol. 12, 330-337.

115. T. Zakharian, J. Ashcroft, A. Mirakyan, D. Tsboulski, N. Benedict, R. B. Weisman, L. J. Wilson, M. R. Rosenblum “Toward Targeted Fullerene Cancer Therapy: Design and Synthesis of a Paclitaxel-C₆₀-Antibody Conjugate,” in Fullerenes and Nanotubes: Materials for the New Chemical Frontier, Kamat, P. V., Guldi, D. M., D’Souza, F, Fukuzumi, S. Eds.; Fullerenes – 14, The Electrochemical Society: Pennington, NJ, (2004), Vol. 12, 338-348.

116. B. Sitharaman, S. Asokan, I. Rusakova, M. S. Wong, and L. J. Wilson, “Nanoscale Aggregation Properties of Neuroprotective Carboxyfullerene (C₃) in Aqueous Solution,” Nano Lett. 2004, 4, 1759-1762.

117. L. O. Husebo, B. Sitharaman, K. Furukawa, T. Kato and L. J. Wilson, “Fullerenols Revisted as Stable Radical Anions,” J. Am. Chem Soc. 2004, 126, 12055-12064.

118. C. M. Sayes, J. D. Fortner, W. Guo, D. Lyon, A. M. Boyd, K. D. Ausman, Y. J. Tao, B. Sitharaman, L. J. Wilson, J. B. Hughes, J. L. West, V. L. Colvin, “The Differential Cytotoxicity of Water Soluble Fullerenes,” Nano Lett. 2004, 4, 1881-1887.

119. B. Sitharaman, R. D. Bolskar, I. Rusakova, and L. J. Wilson, “Gd@C₆₀[C(COOH)₂]₁₀ and Gd@C₆₀(OH)_x: Nanoscale Aggregation Studies of Two Metallofullerene MRI Contrast Agents in Aqueous Solution,” Nano Lett. 2004, 4, 2373-2378.

120. E. Toth, R. D. Bolskar, A. Borel, G. Gonzalez, L. Helm, A. E. Merbach, B. Sitharaman and L. J. Wilson, “Water-Soluble Gadofullerenes: Toward High-Relaxivity, pH-Responsive MRI Contrast Agents,” J. Am. Chem. Soc. 2005, 127, 799-805.

121. Y. A. Mackeyev, J. W. Marks, M. G. Rosenblum, and L. J. Wilson, “Stable Containment of Radionuclides on the Nanoscale by Cut Single-Wall Carbon Nanotubes,” J. Phys. Chem. B 2005, 109, 5482-5484.

122. S. Laus, B. Sitharaman, É. Tóth, R. D. Bolskar, L. Helm, S. Asokan, M. S. Wong, L. J. Wilson and A. E. Merbach, “Destroying Gadofullerene Aggregates by Salt Addition in Aqueous Solution of Gd@C₆₀(OH)_x and Gd@C₆₀[C(COOH₂)]₁₀,” J. Am. Chem. Soc. 2005 127, 9368-9369.

123. B. Sitharaman, K. R. Kissell, K. B. Hartman, L. A. Tran, A. Baikalov, I. Rusakova, Y. Sun, H. A. Khant, S. J. Ludtke, W. Chiu, S. Laus, É. Tóth, L. Helm, A. E. Merbach, and L. J. Wilson, “Superparamagnetic Gadonanotubes Are High-Performance MRI Contrast Agents,” Chem. Commun. 2005, 3915-3917.

124. T. Y. Zakharian, A. Seryshev, B. Sitharaman, B. E. Gilbert, V. Knight, and L. J. Wilson, “A Fullerene-Paclitaxel Chemotherapeutic: Synthesis, Characterization, and Study of Biological Activity in Tissue Culture,” J. Am. Chem. Soc. 2005, 127, 12508-12509.

125. L. J. Wilson and M. G. Rosenblum, “Short Carbon Nanotubes as Adsorption and Retention Agents,” U. S. Patent Application 20060051290, filed July 13, 2005.

126. L. J. Wilson, K. R. Kissell, K. B. Hartman, “Carbon Nanotube Based Imaging Agents,” U. S. Provisional Patent Application No. 60/747,874, filed May 22, 2006.

127. L. J. Wilson, J. M. Ashcroft and M. G. Rosenblum, “Targeted Nanostructures for Cellular Imaging,” U. S. Provisional Patent Application No. 60/803,641 Filed 06/01/2006.

128. L. J. Wilson and M. R. Rosenblum, “Targeted Nanostructure-Drug Conjugates for Therapeutic Applications,” U.S. Provisional Patent Application No. 60822837, filed August 18, 2006.

129. J. M. Ashcroft, D. A. Tsyboulski, K. B. Hartman, T. Y. Zakharian, J. W. Marks, R. B. Weisman, M. G. Rosenblum and L. J. Wilson, “Fullerene (C₆₀) immunoconjugates: interaction of water-soluble C₆₀ derivatives with the murine anti-gp240 melanoma antibody,” Chem. Commun. 2006, 3004-3006.

130. K. R. Kissell, K. B. Hartman, P. van der Heide, and L. J. Wilson, “Preparation of I₂@SWNTs: Synthesis and Spectroscopic Characterization of I₂-loaded SWNTs,” J. Phys. Chem. B 2006, 110, 17425-17429.

131. J. M. Ashcroft, K. B. Hartman, Y. Mackeyev, C. Hofmann, S. Pheasant, L. B. Alemany and L. J. Wilson, “Functionalization of Individual Ultra-short Single-Walled Carbon Nanotubes,” Nanotechnology 2006, 17, 5033-5037.

132. B. Sitharaman and L. J. Wilson, “Gadonanotubes as New High Performance MRI Contrast Agents,” Int. J. of Nanomedicine 2006 l, 291-295.

133. J. M. Ashcroft, K. B. Hartman, K. R. Kissell, Y. Mackeyev, S. Pheasant, S. Young, P. A. van der Heide, A. G. Mikos and L. J. Wilson, “Single-molecule I₂@US-tube Nanocapsules: A New X-ray Contrast Agent Design,” Adv. Mater. 2007, 19, 573-576.

134. Y. Mackeyev, S. Bachilo, K. B. Hartman and L. J. Wilson, “The Purification of HiPCo SWCNTs with Liquid Bromine at Room Temperature,” Carbon 2007, 45, 1013-1017.

135. B. Sitharaman, X. Shi, L. A. Tran, P. P. Spicer, I. Rusakova, L. J. Wilson and A. G. Mikos, “Injectable in Situ Cross-linkable Nanocomposites of Biodegradable Polymers and Carbon Nanostructures for Bone Tissue Engineering,” J. Biomater. Sci., Polym. Ed. 2007, 18, 655-671.

136. S. Laus, B. Sitharaman, E. Toth, R. D. Bolskar, L. Helm, L. J. Wilson and A. E. Merbach, “Understanding Paramagnetic Relaxation Phenomenon for Water-soluble Gadofullerenes,” J. Phys. Chem. C 2007, 111, 5633-5639.

137. B. Sitharaman, L. A. Tran, Q. P. Pham, R. D. Bolskar, R. Muthupillai, S. D. Flamm, A. G. Mikos, L. J. Wilson, “Gadofullerenes as Nanoscale Magnetic Labels for Cellular MRI,” Contrast Media and Mol. Imaging 2007, 2, 139-146.

138. X. Shi, B. Sitharaman, Q. P. Pham, F. Liang, K. Wu, W. E. Billups, L. J. Wilson, A. G. Mikos, “Fabrication of porous ultra-short single-walled carbon nanotube nanocomposite scaffolds for bone tissue engineering,” Biomaterials 2007, 28, 4078-4090.

139. K. B. Hartman, D. K. Hamlin, D. S. Wilbur, L. J. Wilson, “²¹¹AtCl@US-tube Nanocapsules: A New Concept in Radiotherapeutic Agent Design,” Small 2007, 3, 1496-1499.

140. B. Sitharaman, L. J. Wilson, “Gadofullerenes and Gadonanotubes: A New Paradigm for High-Performance MRI Contrast Agent Probes,” invited book chapter in Journal of Biomedical Nanotechnology, Labhasetwar, P., Leslie-Pelecky, D. L., Eds., John Wiley and Sons, Chichester, 2007, Vol. 3, 1-11.

141. K. B. Hartman and L. J. Wilson, “Carbon Nanostructures as a New High-performance Platform for MR Molecular Imaging,” invited book chapter in Nanostructures for Biomedical Applications, Warren Chan, Ed., Landes Bioscience and Eurekah, Georgetown, Texas, 2007, 74-84.

142. B. Sitharaman, A. G. Mikos, L. J. Wilson, X. Shi, “Carbon nanotube based nanocomposites,” Provisional Patent Application filed January 11, 2007, Reg. No. 37,733.

143. A. Hirsch, U. Sagman, S. R. Wilson, M. G. Rosenblum and L. J. Wilson, “Use of Carbon Nanotube for Drug Delivery,” U. S. Patent Application, Serial No. 11/841,087, filed August 20, 2007.

144. K. B. Hartman, L. J. Wilson and M. G. Rosenblum, “Detecting and Treating Cancer with Nanotechnology,” Mol. Diag. Ther. 2008, 12, 1-14.

145. K. B. Hartman, S. Laus, R. D. Bolskar, R. Muthupillai, L. Helm, E. Toth, A. E. Merbach, and L. J. Wilson, “Gadonanotubes as Ultrasensitive pH-Smart Probes for Magnetic Resonance Imaging,” Nano Lett. 2008, 8, 415-419.

146. B. Sitharaman, X. Shi, F. Walboomers, H. Liao, V. Cuijpers, L. J. Wilson, A. G. Mikos, and J. A. Jansen, “In Vivo Biocompatibility of Ultra-Short Single Walled Carbon Nanotube/Biodegradable Polymer Nanocomposites for Bone Tissue Engineering,” Bone 2008 43, 362-370.

147. X. Shi, B. Sitharaman, Q. P. Pham, P. P. Spicer, J. L. Hudson, L. J. Wilson, J. M. Tour, R. M. Raphael, A. G. Mikos, “In vitro cytotoxicity of single-walled carbon nanotube/biodegradable polymer nanocomposites,” J. Biomed. Mater. Res. Part A 2008, 86A, 813-823.

148. B. Sitharaman, T. Zakharian, A. Saraf, P. Misra, J. Ashcroft, S. Pan, Q. P. Pham, A. G. Mikos, L. J. Wilson and D. A. Engler, “Water-Soluble Fullerene (C₆₀) Derivatives as Non-Viral Gene-Delivery Vectors,” Mol. Pharmaceutics 2008 5, 567-578.

149. L. J. Wilson, J. Ananta, B. Sitharaman, K. B. Hartman, “Carbon Nanotube Based Radiosensitizers,” Provisional Patent Application, 2008.

150. L. J. Wilson, J. S. Ananta Narayanan, B. Sitharaman, K. B. Hartman, “Carbon Nanotube Based Magnetic Resonance Imaging Contrast Agents,” Provisional Patent Application, Docket No, 002376.1126, filed August 25, 2008.

151. L. J. Wilson, K. R. Kissell, K. B. Hartman, “Carbon Nanotube Based Imaging Agents,” U. S. Patent Application No. 12/274,174, filed 11/19/2008; published May 23, 2013 as Pub. No. US-2013-0130295-A1 (Appln. No. 13/473,120).

152. L. J. Wilson, J. M. Ashcroft, M. G. Rosenblum, “Targeted Nanostructures for Cellular Imaging,” U. S. Patent Application #12/325849, filed December 1, 2008.

153. Y. Mackeyev, K. B. Hartman, J. S. Ananta, A. V. Lee, L. J. Wilson, “Catalytic Synthesis of Amino Acid- and Peptide-Derivatized Gadonanotubes,” J. Am. Chem. Soc. 2009, 131, 8342-8343.

154. J. Lee, Y. Mackeyev, M. Cho, D. Li, J.-H. Kim, L. J. Wilson, and P. J. J. Alvarez, “Photochemical and Antimicrobial Properties of Novel C₆₀ Derivatives in Aqueous Systems,” Environ. Sci. Technol. 2009, 43, 6604-6610.

155. J. Ananta, M. Matson, A. Tang, T. Mandal, S. Lin, K. Wong, S. Wong, L. J. Wilson, “Single-walled Carbon Nanotube Materials as T₂-weighted MRI Contrast Agents,” J. Phys. Chem. C 2009, 113, 19369-19372.

156. P. J. J. Alvarez, J. Lee, L. J. Wilson, Y. Mackeyev, “Novel Photocatalytic Fullerenes for Water and Wastewater Treatment and Disinfection,” Provisional U. S. Patent Application No. 11321/P189V1, filed June 24, 2009.

157. L. J. Wilson, J. S. Ananta Narayanan, B. Sitharaman, K. B. Hartman, “Carbon Nanotube Based Magnetic Resonance Imaging Contrast Agents,” International Patent Application No. PCT/US2009/53274 (Based on U. S. Provisional Patent Application No. 61/087,198) filed August 10, 2009.

158. L. J. Wilson and I. R. G. Peralta, “Synthesis of a C₆₀-Bisphosphonate-Beta-Blocker Conjugate for the Prevention and Treatment of Osteoporosis,” Invention Disclosure (2009).

159. B. Sitharaman, M. van der Zande, J. S. Ananta, X. Shi, A. Veltien, X. F. Walboomers, L. J. Wilson, A. G. Mikos, A. Heerschap, J. A. Jansen, “Magnetic Resonance Imaging Studies on Gadonanotube Reinforced Biodegradable Polymer Nanocomposites,” J Biomed. Mater. Res. 2010, 93A, 1454-1462.

160. A. A. Hassan, B. Chan, K. B. Hartman, J. S. Ananta, Y. Mackeyev, L. Hu, R. G. Pautler, L. J. Wilson, and A. V. Lee, “Serine-Derivatized Gadonanotubes as Magnetic Nanoprobes for Intracellular Labeling,” Contrast Media Mol. Imaging 2010, 5, 34-38.

161. J. Tabi, K. B. Hartman, S. Boudjemaa, J. S. Ananta, G. Morgant, H. Szwarc, L. J. Wilson and F. Moussa, “In Vivo Behavior of Large Doses of Ultra-Short and Full-Length SWNTs after Oral and Intraperitoneal Administration to Swiss Mice,” ACS Nano 2010, 4, 1481-1492.

162. J. Ananta, B. Godin, R. Sethi, L. Moriggi, X. Liu, R. Serda, R. Kishnamurthy R. Muthupillai, R. D. Bolskar, L. Helm, M. Ferrari, L. Wilson, P. Decuzzi, “Geometrical Confinement of Gadonanotube Based Contrast Agents in Nanoporous Particles Enhances T₁ Contrast,” Nat. Nanotechnol. 2010, 5, 815-821.

163. L. A. Tran, R. Krishnamurty, R. Muthupillai, M. Cabreira-Hansen, J. Willerson, E. Perin and L. J. Wilson, “Gadonanotubes as Magnetic Nanolabels for Stem Cell Detection,” Biomaterials 2010, 31, 9482-9491.

164. M. L. Matson and L. J. Wilson, “Nanotechnology and MRI contrast enhancement,” Future Med. Chem. 2010, 2, 491-502.

165. M. Cho, J. Lee, Y. Mackeyev, L. J. Wilson, P. J. J. Alvarez, J. B. Hughes, J.-H. Kim, “Visible Light Sensitized Inactivation of MS-2 Bacteriophage by Novel Amine-Functionalized C₆₀ Derivative,” Environ. Sci. Technol. 2010, 44, 6685-6691.

166. U. Sagman, M. G. Rosenblum, L. J. Wilson, “Fullerenes in Targeted Therapy,” U. S. Patent 7,758,889, issued July 20, 2010.

167. M. van der Zande, B. Sitharaman, X. F. Walboomers, L. Tran, J. S. Ananta, A. Veltien, L. J. Wilson, J. I. Alava, A. Heerschap, A. G. Mikos, and J. A. Jansen, “In vivo Magnetic Resonance Imaging of the Distribution Pattern of Gadonanotubes Released from a Degrading Poly(Lactic-Co-Glycolic Acid) Scaffold,” Tissue Eng. 2011, 17, 19-26.

168. A. M. Tang, J. S. Ananta, H. Zhao, B. T. Cisneros, E. Y. Lam, S. T. Wong, L. J. Wilson and K. K. Wong, “Cellular uptake and imaging studies of gadolinium-loaded single-walled carbon nanotubes as MRI contrast agents,” Contrast Media & Mol. Imaging, 2011, 6, 93-99.

169. L. A. Tran and L. J. Wilson, “Nanomedicine: Making Controllable Magnetic Drug Delivery Possible for the Treatment of Breast Cancer,” Breast Cancer Research 2011, 13, 303-304.

170. M. L. Matson, J. S. Ananta, and L. J. Wilson, “Carbon-Based Nanomedicine,” invited book chapter, in CRC Nanobiomaterials Handbook, B. Sitharaman ed.; 2011, 5-1:5-24, Boca Raton.

171. C. S. Berger, J. W. Marks, R. D. Bolskar, M. G. Rosenblum, L. J. Wilson, “Cell Internalization Studies of Gadofullerene-(ZME-018) Immunoconjugates into A375m Melanoma Cells,” Translational Oncology 2011, 4, 350-354.

172. Y. Mackeyev, I. Tworowska, L. J. Wilson, “Nanostructures Comprising Radioisotopes and/or Metals,” Provisional Patent Application

173. A. Grattoni, D. Fine, E. Zabre, A. Ziemys, J. Gill, Y. Mackeyev, M. A. Cheney, D. C. Danila, S. Hosali, L. J. Wilson, F. Hussain, and M. Ferrari, “ Gated and Near-Surface Diffusion of Charged Fullerenes in Nanochannels,” ACS Nano 2011, 5, 9382-9391.

174. M. Raoof, S. J. Corr, W. D. Kaluarachchi, K. L. Massey, K. Briggs, C. Zhu, M. A. Cheney, L. J. Wilson, S. A. Curley, “Stability of directionally conjugated gold nanoparticles in endolysosomal microenvironment: Implications in non-invasive radiofrequency based cancer therapy,” Nanomed. Nanotechnol. Biol. Med. 2012, 8, 1096-1105.

175. H. Kim, W. Kim, Y. Mackeyev, G.-S. Lee, H.-J. Kim, T. Tachikawa, S. Hong, S. Lee, J. Kim, L. J. Wilson, T. Majima, P. Alvarez, W. Choi, J. Lee “Selective Oxidative Degradation of Organic Pollutants by Singlet Oxygen-Mediated Photosensitization: Tin Porphyrin versus C₆₀ Aminofullerene Systems,” Environ. Sci. Technol. 2012, 46, 9606-9613.

176. L. J. Wilson, L. A. Tran, M. L. Matson, E. C. Perin, Y. Zeng, “Retention of Magnetically-Labeled Cells in Tissue and Associated Methods,” Provisional Patent Application filed 9/16/11.

177. E. J. Rivera, R. Sethi, F. Qu, R. Krishnamurthy, R. Muthupillai, M. Alford, S. S. Eaton, G. R. Eaton, and L. J. Wilson, “Nitroxide Radicals@US-Tubes: New Spin Labels for Biomedical Applications,” Adv. Funct. Mater. 2012, 22, 3691-3698.

178. R. Sethi, J. S. Ananta, C. Karmonik, M. Zhong, S. H. Fung, X. Liu, K. Li, M. Ferrari, L. J. Wilson, and P. Decuzzi, “Enhanced relaxivity of Gd³⁺-based contrast agents geometrically confined within porous nanoconstructs,” Contrast Media Mol. Imaging 2012, 7, 501-508.

179. M. Raoof, Y. Mackeyev, M. Cheney, L. J. Wilson, S. A. Curley, “Internalization of C₆₀ fullerenes into cancer cells with accumulation in the nucleus via the nuclear pore complex,” Biomaterials 2012, 33, 2952-2960.

180. A. Guven, I. A. Rusakova, M. T. Lewis, and L. J. Wilson, “Cisplatin@US-tube Carbon Nanocapsules for Enhanced Chemotherapeutic Delivery,” Biomaterials 2012, 33, 1455-1461.

181. Y. Mackeyev and L. J. Wilson, “Facile Purification of Carbon Nanotubes with Liquid Bromine at Room Temperature,” U. S. Patent 8,128,901 issued March, 2012.

182. A. Gizzatov, A. Dimiev, Y. Mackeyev, J. M. Tour and L. J. Wilson, “Highly Water Soluble Multi-layer Graphene Nanoribbons and Related Honey-comb Carbon Nanostructures,” Chem Commun. 2012, 48, 5602-5604.

183 Y. Mackeyev, L. J. Wilson, I. Tworowska, “Nanostructures Comprising Radioisotopes and/or Metals,” U. S. Patent Application 2012/0052008, Published March 1, 2012.

184. R. Sethi, Y. Mackeyev, and L. J. Wilson, “The Gadonanotubes Revisited: A New Frontier in MRI Contrast Agent Design,” Inorg. Chim. Acta 2012, 393, 165-172.

185. S. J. Corr, M. Raoof, Y. Mackeyev, S. Phounsavath, M. A. Cheney, B. Cisneros, M. Shur, M. Gozin, P. J. McNally, L. J. Wilson, and S. A Curley, “Citrate-capped Gold Nanoparticle Electrophoretic Heat Production in Response to a Time-varying Radio-Frequency Electric Field,” J. Phys. Chem. C, 2012, 116, 24380-24389.

186. S. J. Corr, M. Raoof, L. J. Wilson, and Steven A. Curley, “Nanoparticles for non-invasive radiofrequency-induced cancer hyperthermia,” in Functional Nanoparticles for Bioanalysis, Nanomedicine and Bioelectronic Devices, in preparation (2012).

187. E. J. Rivera, L. A. Tran, M. Hernandez-Rivera, D. Yoon, A. G. Mikos, I. A. Rusakova, B. Y. Cheong, M. G. Cabreira-Hansen, J. T. Willerson, E. C. Perin and L. J. Wilson, “Bismuth@US-tubes as a Potential Contrast Agent for X-ray Imaging Applications,” J. Biomater. Chem. B 2013 1, 4792-4800.

188. M. Raoof, C. Zhu, B. T. Cisneros, H. Liu, S. J. Corr, L. J. Wilson, S. A. Curley, “Hyperthermia Inhibits Recombination Repair of Gemcitabine-stalled Replication Forks,” J. Natl. Cancer Inst. 2014 Aug. 15, 106 (8).

189. J. T. Rosenberg, B. T. Cisneros, M. Matson, M. Sokoll, A. Sachi-Kocher, F. C. Bejarano, L. J. Wilson and S. C. Grant, “Encapsulated gadolinium and dysprosium ions within ultra-short carbon nanotubes for MR microscopy at 11.75 and 21.1 T,” Contrast Media Mol. Imaging 2014, 9, 92-99.

190. K. Kumar, M. Matson, L. J. Wilson, M. F. Tweedle, “Kinetics of Improved and Reproducible Gadolinium Loading of Ultra-Short Nano Tubes (US-Tubes) and Their Plasma Stability,” (in preparation) 2012.

191. S. J. Corr, M. Raoof, B. T. Cisneros, O. Kuznetsov, K. Massey, W. D. Kaluarachchi, M. A. Cheney, W. E. Billups, L. J. Wilson and S. A. Curley, “Cytotoxicity and variant cellular internalization behavior of water-soluble sulphonated nanographene sheets in liver cancer cells,” Nanoscale Res. Lett. 2013, 8, 208:1-10.

192. L. J. Wilson, L. A. Tran, M. L. Matson, E. C. Perin, Y. Zheng, “Retention of Magnetically-Labeled Cells in Tissue an Associated Methods,” Provisional Patent Application, August, 2012.

193. L. A. Tran, M. Hernandez-Rivera, A. N. Berlin, Y. Zheng, L. Sampaio, C. Bove, M. G. Cabreira-Hansen, J. T. Willerson, E. C. Perin, and L. J. Wilson, and “The Use of Gadolinium-Carbon Nanostructures to Magnetically Enhance Stem Cell Retention for Cellular Cardiomyoplasty,” Biomaterials2014, 35, 720-726. 2013 http://dx.doi.org/ 10.1016/j.biomaterials. 2013.10.013.

194. Q. Ma, M. Jebb, M. F. Tweedle, L. J. Wilson, “The Gadonanotubes: Structural Origin of Their High-Performance MRI Contrast Agent Behavior,” J. Mater. Chem. B. 2013, 1, 5791-5797.

195. A. M. Dimiev, A. Gizzatov, L. J. Wilson, and J. M. Tour, “Stable aqueous colloidal solutions of intact surfactant-free graphene nanoribbons and related graphitic nanostructures,” Chem. Commun. 2013, 49, 2613-2615.

196. M. Raoof, B. T. Cisneros, A. Guven, S. Phounsvath, S. J. Corr, L. J. Wilson, S. A. Curley, “Remotely triggered cisplatin release from carbon nanocapsules by radiofrequency fields,” Biomaterials 2013, 34, 1862-1869.

197. Q. Ma, M. Jebb, M. F. Tweedle and L. J. Wilson, “X-ray absorption spectroscopy study of Gd³⁺-loaded ultra-short carbon nanotubes,” J. Phys. Conf. Ser. 2013, 430, 012085:1-012085:6.

198. F. Huang, Y. Mackeyev, E. Watson, M. A. Cheney, L. J. Wilson and J. Suh, “Evidence for nuclear internalization of biocompatible [60]fullerene,” Eur. J. Nanomed. 2013, 5, 51-55.

199. P. J. J. Alvarez, J. Lee, L. J. Wilson, Y. Mackeyev, J. Kim, “Fullerene Compositions and Methods for Photochemical Purification,” U. S. Patent Application Publication No. US 2012/0189492 A1, Published July 26, 2012.

200. L. J. Wilson, K. R. Kissell, K. B. Hartman, “Carbon Nanotube Based Imaging Agents,” patent application 13/473,120 filed May 23, 2013.

201. S. J. Corr, O. Kuznetsov, M. Raoof, B. T. Cisneros, M. A. Cheney, W. E. Billups, L. J. Wilson and S. A. Curley, “Fabrication and Bio-Characterization of Highly Water-Soluble Sulphonated Graphene Sheets for Cancer Therapy,”

202. Q. Ma, M. Jebb, M. F. Tweedle, L. J. Wilson, “The Gadonanotubes: Structural Origin of Their High-Performance MRI Contrast Agent Behavior,” J. Mater. Chem. B 2013, 1, 5791-5797.

203. M. L. Matson, C. H. Villa, J. S. Ananta, D. A. Scheinberg, L. J. Wilson, “Encapsulation of Alpha-particle Emitting Actinium,-225 Ions within Carbon Nanotubes,” in preparation 2013.

204. J. Brame, Y. Mackeyev, L. J. Wilson, Q. Li, P. Alvarez, “Trading power for efficiency: differential inhibition of photocatalytically generated hydroxyl radicals versus singlet oxygen,” in preparation (2013). (Water Research)

205. Y. Mackeyev, M. Raoof, B. Cisneros, N. Koshkina, C. S. Berger, L. J. Wilson, and S. A. Curley, “Toward Paclitaxel-[60]Fullerene Immunoconjugates as Targeted Prodrug against Cancer,” Nanosystems: Physics, Chemistry, Mathematics 2014, 1, 1-6.

206. A. Gizzatov, V. Keshishian, A. Guven, A. M. Dimiev, F. Qu, R. Muthupillai, P. Decuzzi, R. G. Bryant, J. M. Tour and L. J. Wilson, “Enhanced MRI Relaxivity of Aquated Gd³⁺ Ions by Carboxyphenylated Water-dispersed Graphene Nanoribbons,” Nanoscale 2014, 6, 3059-3063. DOI: 10.1039C3NR06026H.

207. A. Gizzatov, J. Key, S. Aryal, J. Ananta, A. Cervadoro, A. Palange, M. Fasano, C. Stigliano, M. Zhong, D. Di Mascolo, A. Guven, E. Chiavazzo, P. Asinari, X. Liu, M. Ferrari, L. J. Wilson, P. Decuzzi, “Hierarchically-Structured Magnetic Nanoconstructs with Enhanced Relaxivity and Cooperative Tumor Accumulation,” Adv. Funct. Mater. 2014, 24 (29), 4584-4594.

208. B. T. Cisneros, J. J. Law, M. L. Matson, A. Azhdarinia, E. M. Sevick-Muraca and L. J. Wilson, “Stable Confinement of Positron Emission Tomography and Magnetic Resonance Agents within Carbon Nanotube Capsules for Biomodal Imaging,” Nanomedicine 2014, 9 (16) 2499-2509.

209. S. J. Corr, M. Raoof, C. Zhu, S. Phounsavath, B. T. Cisneros, W. D. Kaluarachchi, L. J. Wilson, and S. A. Curley, “Gold Nanoparticles and Radiofrequency in Experimental Models for Hepatocellular Carcinoma,” Nanomed. Nanotechnol. Biol. Med. 2014, 10 (6) 1121-1130.

210. J. J. Law, A. Guven and L. J. Wilson, “Relaxivity enhancement of aquated Tris (β-diketonate)gadolinium (III) chelates by confinement within ultrashort single-walled carbon nanotubes” Contrast Media Mol. Imaging 2014, 9 (6) 409-412.

211. Y. Choi, Y. Ye, Y. Mackeyev, M. Cho, S. Lee, L. J. Wilson, J. Lee, P. J. J. Alvarez, W. Choi, L. Lee, “C₆₀ Aminofullerene-magnetite Nanocomposite Designed for Efficient Visible Light Photocatalysis and Magnetic Recovery,” Carbon 2014, 69, 92-100.

212. A. Gizzatov, C. Stigliano, J. S. Ananta, R. Sethi, R. Xu, A. Guven, M. Ramirez, H. Shen, A. Sood, M. Ferrari, L. J. Wilson, X. Liu, and P. Decuzzi, “Geometrical confinement of Gd(DOTA) molecules within mesoporous sililcon nanoconstructs for MR imaging of cancer,” Cancer Letters 2014, 352, 97-101.

213. L. A. Tran, M. Hernandez-Rivera, A. N. Berlin, Y. Zheng, L. Sampaio, C. Bove, M. G. Cabreira-Hansen. J. T. Willerson, E. C. Perin, and L. J. Wilson, “The use of gadolinium-carbon nanostructures to magnetically enhance stem cell retention for cellular cardiomyoplasty,” Biomaterials 2014, 35, 720-726.

214. A. Gizzatov, J. Key, S. Aryal, J. Ananta, A. Cervadoro, A. L. Palange, M. Fasano, C. Stigliano, M. Zhong, D. di Masocolo, A. Guven, E. Chiavazzo, P. Asinari, X Liu, M. Ferarri, L. J. Wilson, and P. Decuzzi, “Hierarchically structured magnetic nanoconstructs with enhanced relaxivity and cooperative tumor accumulation,” Adv. Funct. Mater. 2014, 24, 4584-4594.

215. M. L. matson, C. H. Villa, J. S. Ananta, J. J. Law, D. A. Scheinberg, and L. J. Wilson, “Encapsulation of alpha-particle-emitting actinium-225 ions within carbon nanotubes,” J. Nucl. Med. 2015, 56, 897-900.

216. A. Gizzatov, M. Hernandez-Rivera, V. Keshishian, Y. Mackeyev, J. J. Law, R. Sethi, F. Qu, R. Muthupillai, M. Cabreira-Hansen, J. T. Willerson, E. C. Perin, Q. Ma, R. G. Bryant, and L. J. Wilson, “Surfactant-free Gd3+-ion-containing carbon nanotube MRI contrast agents for stem cell labeling,” Nanoscale 2015, 7, 12085-1209L.

217. B. D. Holt, J. J. Law, L. J. Wilson, K. N. Dahl, M. F. Islam, “sub-cellular partitioning and analysis of Gd3+-loaded ultra-short single-walled carbon nanotubes,” ACS Applied Material Interfaces, 2015, 7, 14593-14602.

218. J. Kolosnjaj-Tabi, J. Just, K. B. Hartman, Y. Laoudi, S. Boudjemaa, D. Alloyeau, H. Szwarc, L. J. Wilson, F. Moussa, “Anthropogenic carbon nanotubes found in the airways of Parisian children,” EBioMedicine 2015, doi: 10.1016/jebiom.2015.10.012

219. S. J. Corr, M. Raoof, B. Cisneros, A. Orbaek, M. A. Cheney, J. J. Law, N. C. Lara, A. Barron, L. J. Wilson, S. A. Curley, “Radiofrequency electric-field heating behaviors of highly enriched semiconducting and metallic single-walled carbon nanotubes,” Nano Res. 2015, 8, 2859-2870.

220. S. J. Corr, S. Shamsudeen, K. Yoko, D. J. Savage, I. M. Meraz, W. Kaluarachchi, D. Kirui, B. T. Cisneros, M. Raoof, J. Rhudy, J. H. Sakamoto, M. Ferrari, L. J. Wilson, H. Summers, P. Rees, S. A. Curley, and R. E. Serda, “A new imaging platform for visualizing enhanced macromolecule perfusion into tumors using non-invasive radiofrequency cancer therapy,” PLoS ONE 2015, 10(8): e0136382.

221. M. Hernandez-Rivera, N. G. Zaibaq, L. J. Wilson, “Toward carbon nanotube-based imaging agents for the clinic,” Biomaterials 2016, 101, 229-240.