Presenting author noted in bold

 

54) “Isolation and characterization of the cyamelurate anion [C₆N₇O₃^3-] derived from a disordered carbon nitride material”, J. R. Holst, E. G. Gillan, Midwest Regional American Chemical Society Meeting, Quincy, Illinois, October 2006.

 

53) “Challenges in synthesizing nitrogen-rich metastable metal nitrides via mild solvothermal routes”, B. Barry, E. G. Gillan, Midwest Regional American Chemical Society Meeting, Quincy, Illinois, October 2006.

 

52) (Invited) “Synthesis of metastable inorganic micro- and nanomaterials using energetically unstable precursors”, E. G. Gillan, Midwest Regional American Chemical Society Meeting, Quincy, Illinois, October 2006.

 

51) (Invited) “Synthesis of metastable inorganic nitride materials using energetically unstable precursors”, E. G. Gillan, UC Santa Cruz, Department of Chemistry - Inorganic/Organic Seminar, October 2006.

 

50) “Cooling down energetic solid-state metathesis reactions:  Solvothermal approaches to metastable nanoscale materials”, E. G. Gillan, S. Perera, J. L. Choi, American Chemical Society National Meeting, San Francisco, California, September 2006.

 

49) “Rapid solid-state and solvothermal synthesis of crystalline, photocatalytically active titania”, S. Perera, E. G. Gillan, Solid State Chemistry Gordon Research Conference, New London, New Hampshire, July 2006.

 

48) “Synthesis of nanocrystalline Group 13 and first row transition metal nitrides through metal azide precursor decomposition by solvothermal reaction”, J. Choi, E. G. Gillan, Solid State Chemistry Gordon Research Conference, New London, New Hampshire, July 2006.

 

47) (Invited) “Synthesis and properties of disordered two-dimensional nitrogen-rich “carbon nitride” network materials”, E. G. Gillan, Midwest Organic Solid State Chemistry Symposium, Iowa City, Iowa, June 2006.

 

46) “Isolation of and reactions with the [C₆N₇O^3-] cyamelurate anion derived from amorphous carbon nitrides”, J. R. Holst, E. Gillan, Midwest Organic Solid State Chemistry Symposium, Iowa City, Iowa, June 2006.

 

45) “Synthesis of photocatalytically active, anatase titania nanoparticles and mixed phase nanowires”, S. Perera, E. G. Gillan, Great Lakes Regional American Chemical Society Meeting, Milwaukee, Wisconsin, May 2006.

 

44) “Synthesis and structural elucidation of disordered two-dimensional nitrogen-rich carbon nitride materials”, E. G. Gillan, D. R. Miller, J. R. Holst, Materials Research Society National Meeting, San Francisco, California, April 2006.

 

43) (Invited) “Harnessing energetic metal azides for solvothermal metal nitride syntheses”, E. G. Gillan, American Chemical Society National Meeting, Washington, D. C., August 2005.

 

42) “Solvothermal routes to metal nitrides via metal azide precursor decomposition”, J. Choi, E. G. Gillan, Midwest Solid-State Chemistry Conference, University of Notre Dame, May 2005.

 

41) “Rapid solid-state synthesis of crystalline, photocatalytic active titanium oxides”, S. Perera, N. Zelenski, E. G. Gillan, Midwest Solid-State Chemistry Conference, University of Notre Dame, May 2005.

 

40) “Metal azides as energetic metal nitride precursors:  Solvothermal decomposition routes to nanocrystalline transition metal nitrides, J. L. Choi, E. G. Gillan, American Chemical Society National Meeting, San Diego, California, March 2005.

 

39) “Disordered two-dimensional carbon nitride materials:  Recent synthetic efforts and structural analysis”, E. G. Gillan, D. R. Miller, J. Holst, American Chemical Society National Meeting, San Diego, California, March 2005.

 

38) (Invited) “Solvothermal metal azide routes to nanocrystalline metal nitrides”, E. G. Gillan, American Chemical Society 36^th Annual Great Lakes Regional Meeting, session on “Preparation, Characterization, and Application of Nanomaterials”, Peoria, IL, October 2004.

 

37) “Energetic molecular precursor routes to carbon nitride networks”, D. R. Miller and E. G. Gillan, Solid State Chemistry Gordon Research Conference, New London, New Hampshire, July 2004.

 

36) “Solvothermal routes to crystalline metal nitrides via metal azide precursor decomposition” J.-L. Choi and E. G. Gillan, Solid State Chemistry Gordon Research Conference, New London, New Hampshire, July 2004.

 

35) “Energetic molecular precursor routes to carbon nitride networks”, D. R. Miller and E. G. Gillan, American Chemical Society National Meeting, Anaheim, California, March 2004.

 

34) “Solvothermal routes to crystalline metal nitrides via metal azide precursor decomposition” J.-L. Choi and E. G. Gillan, American Chemical Society National Meeting, Anaheim, California, March 2004.

 

33) “2,5,8-Triazido-sym-heptazine: A novel single-source precursor for rapid synthesis of carbon nitride powders”, D. R. Miller and E. G. Gillan, 38^th Midwest Regional American Chemical Society Meeting, Columbia, Missouri, November 2003.

 

32) “Solvothermal metathesis routes to crystalline metal nitrides via azido precursor decomposition”, J.-L. Choi and E. G. Gillan, 38^th Midwest Regional American Chemical Society Meeting, Columbia, Missouri, November 2003.

 

31) (Invited) “Materials synthesis via the decomposition of energetically unstable precursors:  From nanoparticles to disordered network structures”, E. G. Gillan, St. Louis University, St. Louis, Missouri, October, 2003.

 

30) “Energetic precursor decomposition routes to carbon nitrides, metal nitrides, and transition metal based materials”, E. G. Gillan, Inorganic Gordon Research Conference, Newport, Rhode Island, July 2003.

 

29) “Azidothermal decomposition routes to gallium nitride nanoparticles”, E. G. Gillan, American Chemical Society National Meeting, New Orleans, Louisiana, March 2003.

 

28) (Invited) “Designing energetic precursor routes to inorganic materials”, E. G. Gillan, 10^th NSF Materials Chemistry Workshop, Christiana Hilton, Christiana, Delaware, October 2002.

 

27) (Invited) “Designing energetic precursor routes to inorganic materials”, E. G. Gillan, Northwestern University, Department of Chemistry, Evanston, Illinois, October 2002.

 

26) “Designing energetic precursor routes to inorganic materials”, E. G. Gillan, J. Wang, L. Grocholl, and D. Miller, Solid State Chemistry Gordon Research Conference, New London, NH, July 2002.

 

25) (Invited) “Synthesis of main group nitrides via the decomposition of energetic precursors”, E. G. Gillan, Department of Chemistry, University of New Mexico, Albuquerque, New Mexico, October 2001.

 

24) (Invited) “Synthesis of nanoscale semiconductors and ceramics via the decomposition of energetic precursors”, E. G. Gillan, Iowa Microscopy Society Annual Meeting Symposium, University of Iowa, Iowa City, Iowa, September 2001.

 

23) (Invited) “Synthesis of main group nitrides via the decomposition of energetic precursors”, E. G. Gillan, Department of Chemistry, University of New Orleans, New Orleans, Louisiana, September 2001.

 

22) “Synthesis of main group nitride networks via the decomposition of energetic precursors”, L. Grocholl, J. Wang, D. R. Miller, and E. G. Gillan, Chemistry of Electronic Materials Gordon Research Conference, New London, Connecticut, July 2001.

 

21) “Low-temperature solvothermal route to gallium nitride nanoparticles”, J. Wang, L. Grocholl, and E. G. Gillan in Synthesis, Functional Properties, and Applications of Nanostructures, Materials Research Society National Meeting, San Francisco, California, April 2001.

 

20) “Low-temperature solvothermal route to gallium nitride nanoparticles”, L. Grocholl, J. Wang, and E. G. Gillan in New Developments in the Chemistry of Group 13, American Chemical Society National Meeting, San Diego, California, March 2001.

 

19) (Invited) “Energetic molecular precursors for the growth of main-group nitrides”, E. G. Gillan, L. Grocholl, J. Wang, D. R. Miller, Department of Chemistry, University of Northern Iowa, Cedar Falls, Iowa, February 2001.

 

18) (Invited) “Energetic molecular precursors for the growth of main-group nitrides”, L. Grocholl, J. Wang, and E. G. Gillan, Department of Chemistry, University of Nebraska, Lincoln, Nebraska, September 2000.

 

17) “The use of energetic precursors in the synthesis of main-group nitrides”, L. Grocholl; J. Wang, and E. G. Gillan, Solid State Chemistry Gordon Research Conference, New London, New Hampshire, July 2000.

 

16) (Invited) “Thermally unstable molecular precursors for main-group nitride growth”, E. G. Gillan and S. A. Cullison, symposium on New Synthetic Methods in Solid-State Chemistry, American Chemical Society National Meeting, San Francisco, California, March 2000.

 

15) “Synthesis and characterization of [(^tBu)HGa(NEt₂)]₂ as a single-source precursor to GaN films”, S. A. Cullison and E. G. Gillan, Midwest Regional American Chemical Society Meeting, Quincy, Illinois, October 1999.

 

14) “Main group nitride growth via targeted decomposition of molecular precursors”, S. A. Cullison and E. G. Gillan, American Chemical Society National Meeting, New Orleans, Louisiana, August 1999.

 

13) “Synthesis and decomposition of main group amides and azides:  Precursors for the Growth of Covalent, Extended Structures”, S. A. Cullison and E. G. Gillan, Chemistry of Electronic Materials Gordon Research Conference, Henniker, New Hampshire, July 1999.

 

12) “The growth of carbon nitride materials by decomposition of high-nitrogen content molecular precursors”, E. G. Gillan, American Chemical Society National Meeting, Boston, Massachusetts, August 1998.

 

11) “Molecular routes to carbon nitride materials via the decomposition of high nitrogen content precursors”, E. G. Gillan, Solid State Chemistry Gordon Research Conference, New London, New Hampshire, July 1998.

 

10) “Molecular routes to inorganic materials:  Organometallic cubanes as CVD precursors to layered gallium chalcogenide films”, E. G. Gillan, S. G. Bott, and A. R. Barron, Inorganic Gordon Research Conference, Henniker, New Hampshire, July 1996.

 

9) “Volatility studies on Group 13 chalcogenide cubanes and their utility as precursors to 13-16 materials”, E. G. Gillan, S. G. Bott, and A. R. Barron, American Chemical Society National Meeting, New Orleans, Louisiana, March 1996.

 

8) “Facile deposition of crystalline 13-16 films from volatile, single-source cubane precursors”, E. G. Gillan and A. R. Barron, American Chemical Society National Meeting, Chicago, Illinois, August 1995.

 

7) “Rapid solid-state metathesis routes to metastable refractory materials:  Transition-metal phosphides, oxides, and borides,” E. G. Gillan, R. M. Jacubinas, R. F. Jarvis, Jr., L. Rao, and R. B. Kaner, American Chemical Society National Meeting, Washington, D. C., August 1994.

 

6) “Rapid, exothermic solid-state metathesis routes to transition-metal aluminides”, E. G. Gillan and R. B. Kaner, Solid State Chemistry Gordon Research Conference, Wolfsboro, New Hampshire, July 1994.

 

5) “Metathesis-based solid-state synthesis of metastable phases of zirconia and hafnia”, E. G. Gillan and R. B. Kaner, American Chemical Society National Meeting, Denver, Colorado, April 1993.

 

4) “Rapid solid-state synthesis of refractory borides and alloys”, E. G. Gillan, L. Rao, R. M. Jacubinas, and R. B. Kaner, American Chemical Society National Meeting, Washington, D. C., August 1992.

 

3) “Rapid solid-state synthesis of transition-metal nitrides:  Characterization and chemistry”, E. G. Gillan, R. E. Treece, J. B. Wiley, and R. B. Kaner, Solid State Chemistry Gordon Research Conference, Plymouth, New Hampshire, July 1992.

 

2) “Rapid solid state syntheses of refractory nitrides”, E. G. Gillan, R. E. Treece, J. B. Wiley, and R. B. Kaner, 27th Western Regional American Chemical Society National Meeting, Anaheim, California, October 1991.

 

1) “Rapid solid state synthesis of metal oxides”, J. B. Wiley, E. G. Gillan, and R. B. Kaner, Solid State Chemistry Gordon Research Conference, Plymouth, New Hampshire, July 1990.

 

 

Gillan Group Research Presentations