Department of Chemistry and Biochemistry
- About the Graduate Degrees
- Graduate Programs
- Guidelines for Admission Status
- Graduate Financial Support
- How to Apply
- Pre-Application Form
- Chem Grad Students Association
- Chemistry Department Scholarships
- Graduate Student Handbook and Forms
- Fellowships, Scholarships and Stipends
- Regular Faculty A-Z
- Adjunct Faculty A-Z
- Emeriti Faculty A-Z
- Retired Faculty A-Z
- Daniel W. Armstrong
- William A. Baker
- Edward Bellion
- Alejandro Bugarin
- Saiful Chowdhury
- Purnendu (Sandy) K. Dasgupta
- Rasika Dias
- Ronald L. Elsenbaumer
- Frank W. Foss
- Robert F. Francis
- Jongyun Heo
- Junha Jeon
- Kayunta Johnson-Winters
- Peter Kroll
- Carl J. Lovely
- Frederick MacDonnell
- Subhrangsu S. Mandal
- Dennis S. Marynick
- Brad S. Pierce
- Martin Pomerantz
- Laszlo Prokai
- Krishnan Rajeshwar
- Jimmy R. Rogers
- Zoltan A. Schelly
- Kevin A. Schug
- E. Thomas Strom
- Norma Tacconi
- Seiichiro Tanizaki
- Richard B. Timmons
- Jennifer Rhinehart
- Robin Macaluso
- Research Interests Grid
- Analytical Chemistry
- Environmental Chemistry
- Inorganic Chemistry
- Medicinal Chemistry
- Organic Chemistry
- Organometallic Chemistry
- Physical Chemistry
- How to Succeed in Chemistry
- Mass and Volume Measurement
- Separation of a Three Component Mixture
- Determining the Empirical Formula of a Copper Oxide
- Titration as an Analytical Method: Determining the Acid Content in Vinegar
- Qualitative Analysis: Identifying Simple Salts from their Properties and Reactions
- The Ideal Gas Law and Gas Constant
- Hess's Law and Calorimetry
- Synthesis of Tris-1,10-phen iron(II) chloride
- Spectrophotometric Determination of Purity and Concentration
- Atomic Emission Spectra of Gases: Evidence of Quantum Structure
- Chemiluminescence: Optimization of a Chemical Reaction
- Molecular Shapes By Valence Shell Electron Pair Repulsion (VSEPR) Theory
- Freezing Point Depression in tert-Butyl Alcohol
- Re-crystallization of Acetaminophen from Tylenol
- Chemical Kinetics: Determining the Rate Law for a Chemical Reaction
- Synthesis of 'Green Crystals'
- Colorimetric Determination of the Equilibrium constant for the Formation of a Complex Ion
- Buffer Solution Behavior
- Behavior of Strong and Weak Acids Upon Titration
- Enthalpy and Entropy of a Reaction
- Redox Titration
- Construction of Simple Batteries and Measurement of Half-Cell Potentials
- Forensic Investigations with Chromatography
- Organic Chemistry 1
- ABOUT US
Distinguished University Professor
Vice President, The Electrochemical Society
Office: ERB 344, Email: firstname.lastname@example.org, Phone: 817-272-1283, FAX: 817-272-3808
Semiconductor Electrochemistry and Photocatalysis Attempts at developing efficient and stable photoelectrochemical (PEC) conversion systems have more recently led to exploring the potential and power of PEC methods for non-energy related research. Topics under study include novel in situ diagnostic tools for semiconductor film formation, and spectroscopic probes of charge and mass transport at semiconductor/electrolyte interfaces. We are also investigating the mechanisms of heterogeneous photocatalysis for toxic waste treatment and disinfection. A recent area of interest is solar hydrogen production. Conducting Oxides and Polymers In this area, our interests lie with charge and mass transport mechanisms, the development of novel in situ analytical probes of ion transport, and the chemistry/materials aspects of device applications including sensors, fuel cells, and capacitors. Environmental Electrochemistry We are interested in novel electrode materials for toxic waste treatment and chemical sensing of pollutants.
M. F. Brugmera, K. Rajeshwar and M. V. B. Zanoni, “Bisphenol A Removal from Wastewater Using Self-Organized TiO2 Nanotubular Array Electrodes,” Chemosphere 78, 569-575 (2010).
N. R. de Tacconi, K. Rajeshwar, W. Chanmanee, V. Valluri, W. A. Wampler, W-Y. Lin and L. Nikiel, “Photocatalytically Generated Bimetallic (Pt-Au/C-TiO2) Electrocatalysts for Polymer Electrolyte Fuel Cell Applications,” J. Electrochem. Soc. 157, B147-B153 (2010).
S. Ham, S. Jeon, M. Park, S. Choi, K-J. Paeng, N. Myung and K. Rajeshwar, “Electrodeposition and Stripping Analysis of Bismuth Selenide Thin Films Using Combined Electrochemical Quartz Crystal Microgravimetery and Stripping Voltammetry,” J. Electroanal. Chem. 638, 195-203 (2010).
N. G. Fazleev, M. P. Nadesalingam, W. Maddox, S. Mukherjee, K. Rajeshwar and A. H. Weiss, “Oxidation and Thermal Reduction of the Cu(100) Surface as Studied using Positron Annihilation Induced Auger Electron Spectroscopy (PAES),” Surface Science 604, 32-37 (2010).
L. H, Dall ‘Antonia, N. R. de Tacconi, W. Chanmanee, H. Timmaji, N. Myung and K. Rajeshwar, “Electrosynthesis of Bismuth Vanadate Photoelectrodes,” Electrochem. Solid-State Lett. 13, D29-D32 (2010).
C. de Arruda Rodrigues, N. R. de Tacconi, W. Chanmanee and K. Rajeshwar, “Cathodic Electrosynthesis of Niobium Oxide One-Dimensional Nanostructures with Tailored Dimensions,” Electrochem. Solid-State Lett. 13, B69-B72 (2010).
C. Janaky, G. Bencsik, A. Racz, C. Visy, N. R. de Tacconi, W. Chanmanee and K. Rajeshwar, “Electrochemical Grafting of Poly(3,4-ethylenedioxythiophene) into a Titanium Dioxide Nanotube Host Network,” Langmuir 26, 13697-13702 (2010).
U. Lee, S. Ham, C. Han, Y. J. Jeon, N. Myung and K. Rajeshwar, “Mild and Facile Synthesis of Ag2S Nanowire Precursor Using Mercaptoacetic Acid as a Reductant/Stabilizer and its Subsequent Conversion to Ag2S or CdS Nanowires,” Mater. Chem. Phys. 121, 549-554 (2010).
H. K. Timmaji, W. Chanmanee, N. R. de Tacconi, and K. Rajeshwar, “Solution Combustion Synthesis of BiVO4 Nanoparticles: Effect of Combustion Precursors on the Photocatalytic Activity,” J. Adv. Oxid. Technol. 14, 93 (2011).
J. A. P. Castro, R. Quinterro-Torres, N. R. de Tacconi, K. Rajeshwar and W. Chanmanee, “Anodic Growth of Titania Nanotube Arrays on Titanium Substrate: A Study by Electrochemical Impedance Spectroscopy,” J. Electrochem. Soc. 158, D84-D90 (2011).
N. Myung, S. Ham, S. Choi, Y. Chae, W-G. Kim, Y. J. Jeon, K. J. Paeng, W. Chanmanee< N. R. de Tacconi and K. Rajeshwar, “Tailoring Interfaces for Electrochemical Synthesis of Semiconductor Films: BiVO4, Bi2O3, or Composites,” J. Phys. Chem. C 115, 7793-7800 (2011).
M. Aboushabana, N. R. de Tacconi and K. Rajeshwar, “Photoelectrolysis of Aqueous Lignite and Carbon Black Slurry Suspensions,” Electrochem. Solid-State Lett. 14, E31-E33 (2011).
N. R. de Tacconi, W. Chanmanee, B. H. Dennis, F. M. MacDonnell, D. J. Boston and K. Rajeshwar, “Electrocatalytic Reduction of Carbon Dioxide Using Pt/C-TiO2 Nanocomposite Cathode,” Electrochem. Solid-State Lett. 15, B5-B8 (2012).
C. Janaky, N. R. de Tacconi, W. Chanmanee and K. Rajeshwar, “Electrodeposited Polyaniline in a Nanoporous WO3 Matrix: An Organic/Inorganic Hybrid Exhibiting Both n- and p-Type Photoelectrochemical Activity,” J. Phys. Chem. C 116, 4234-4242 (2012).
B. Stamos, L. Loredo, S. Chand, T. V. Phan, Y. Zhang, S. Mohapatra, K. Rajeshwar and R. Perera, “Biosynthetic Approach for Functional Protein Microarrays,” Anal. Biochem. 424, 114-123 (2012).
K. Rajeshwar, N. R. de Tacconi and H. K. Timmaji, “New-Generation Oxide Semiconductors for Solar Energy Conversion and Environmental Remediation,” J. Nano Research 17, 185-191 (2012).
N. R. de Tacconi, W. Chanmanee, K. Rajeshwar, W-Y. Lin, L. Nikiel and W. A. Wampler, “Photocatalytically Generated Trimetallic (Pt-Pd-Au/C-TiO2) Nanocomposite Electrocatalyst,” J. Electrochem. Soc. 159, F226-F233 (2012).
M. Aboushabana, N. R. de Tacconi and K. Rajeshwar, “Chemical Pre-Treatment of Coal and Carbon Black: Implications for Electrolytic Hydrogen Generation and Electrochemical/Thermal Reactivity,” J. Electrochem. Soc. 159, B695-B701 (2012).
N. R. de Tacconi, H. K. Timmaji, W. Chanmanee, M. N. Huda, P. Sarker, C. Janaky and K. Rajeshwar, “Photocatalytic Generation of Syngas Using Combustion-Synthesized Silver Bismuth Tungstate,” ChemPhysChem 13, 1-12 (2012).
C. Janaky, N. R. de Tacconi, W. Chanmanee and K. Rajeshwar, “Bringing Conjugated Polymers and Oxide Nanoarchitectures into Intimate Contact: Light Induced Electrodeposition of Polypyrrole and Polyaniline on Nanoporous WO3 or TiO2 Nanotube Array,” J. Phys. Chem. C 116, 19145-19155 (2012).
S. Choi, Y. Chae, S. Ham, W. Lee, N. Myung and K. Rajeshwar, “CdSe/ZnO Composite via Galvanic Displacement Followed by Photocathodic Deposition: Hybrid Electrosynthesis and Characterization,” J. Phys. Chem. C 116, 20146-20153 (2012).
Feature and Review Articles
A. Heller, D. Kolb and K. Rajeshwar, “The Life and Work of Heinz Gerischer,” ECS Interface 19 (3), 37-40 (2010).
K. Rajeshwar, “Solar Energy Conversion and Environmental Remediation Using Inorganic Semiconductor-Liquid Interfaces: The Road Traveled and the Way Forward,” J. Phys. Chem. Lett. 2, 1301-1309 (2011) (Guest Commentary).
K. Rajeshwar, N. R. de Tacconi and W. Chanmanee, “Combustion Synthesis of Oxide Semiconductors for Solar Energy Conversion and Environmental Remediation,” Chem. Soc. Rev. 38, 1984-1998 (2009).
K. Rajeshwar and W. Chanmanee, “Bioinspired Photocatalyst Assemblies for Environmental Remediation,” Electrochim. Acta 84, 96-102 (2012) (Invited Review Article in Special Issue on the Year of Chemistry).
Monographs/Edited Volumes/Book Chapters
K. Rajeshwar, R. McConnell and S. Licht, editors, Solar Hydrogen Generation: Toward a Renewable Energy Future, Kluwer Academic, New York (2008).S. Brankovic and K. Rajeshwar, “Electrodeposition for Energy Applications,” ECS Transactions, Vol. 13, No. 10 (2008) (149 pages).
M. Tao, C. Claeys, L. Deligianni, J. G. Park, K. Rajeshwar and M. Sunkara, “Photovoltaics for the 21st Century, ECS Transactions, Vol. 41, No. 4 (2011) (248 pages).
K. Rajeshwar, R. McConnell, K. Harrison and S. Licht “Renewable Energy and the Hydrogen Economy,” in Solar Hydrogen Generation: Toward a Renewable Energy Future (edited by K. Rajeshwar, R. McConnell and S. Licht), Chapter 1, pp. 1-18, Kluwer Academic, New York (2008).
K. Rajeshwar, “Hydrogen Generation from Irradiated Semiconductor-Liquid Interfaces,” in Solar Hydrogen Generation: Toward a Renewable Energy Future (edited by K. Rajeshwar, R. McConnell and S. Licht), Chapter 7, pp. 167-228, Kluwer Academic, New York (2008).
T. E. Schlesinger, K. Rajeshwar, and N. R. de Tacconi, “Electrodeposition of Semiconductors,” In Modern Electroplating (edited by M. Schlesinger), Chapter 14, 383-411, Springer, New York (2010).
D. J. Boston, K-L. Huang, N. R. de Tacconi, N. Myung, F. M. MacDonnell and K. Rajeshwar, “Electro- and Photocatalytic Reduction of CO2: The Homogeneous and Heterogeneous Worlds Collide?” in Photoelectrochemical Water Splitting: Issues and Perspectives (edited by H-J. Lewerenz and L. M. Peter), Royal Society of Chemistry, London (in press).Patents
K. Rajeshwar and C. S. C. Bose, “Conducting Polymer Films Containing Nanodispersed Catalyst Particles: A New Type of Composite Material for Technological Applications,” U. S. Patent 5,334,292 (issued August 2, 1994).
K. Rajeshwar, C. Wei and S. Basak, “Redox Polymer Films for Metal Recovery Applications,” U. S. Patent 5,368,632 (issued November 29, 1994).
V. S. Agarwala, P. Pole and K. Rajeshwar, “Process for Removing a Coating from a Substrate,” U. S. Patent 7,229,953 (issued June 12, 2007).
K. Rajeshwar, N. R. de Tacconi, C. R. Chenthamarakshan, W. A. Wampler, T. Carlson, W-Y. Lin, “Photocatalytic Deposition of Metals and Compositions Comprising the Same,” U. S. Patent 8,143,185 (issued March 27, 2012).
B.S. University College, Trivandrum, India (1969)
M.S. Indian Institute of Technology, Kharagpur, India (1971)
Ph.D. Indian Institute of Science, Bangalore, India (1974)
St. Francis Xavier University (1975-1976);
Colorado State University (1976-1978)
Senior Research Associate: Colorado State University (1979-1983)
Wilfred T. Doherty Award, American Chemical Society, Dallas-Ft. Worth Section, 1994
Editor, The Electrochemical Society Interface magazine, 1999-present
Fellow of the Electrochemical Society, 2002-present
Charter Member, UT Arlington Academy of Distinguished Scholars and Researchers, 2004-present
Energy Technology Division Research Award of the Electrochemical Society, 2009