Chemical Engineering Publications

Publications

For more information on a given paper, please contact the author. Links are provided to faculty profiles.

W.Y. Chen J.H. O'Haver P. Scovazzo
A. Sadana P.C. Sukanek C.W. Williford

Wei-Yin Chen

Profile & Research Interests
Combustion Research
Stochastic Modeling

2009

  1. Chen, W.Y., and S. Wan, “Effects of Diffusion on Char-Desorption Profiles,” Energy and Fuels, 23(1), 586-587 (2009).
  2. Wan, S., S. Wan, and G. Shi, “Roles of Mineral Matters in the Early Stage of Coal Combustion,” Energy and Fuels, in press, Energy and Fuels, 23(2), 710-718 (2009).
  3. Chen, W.Y., G. Shi, and S. Wan, “Characterization of Oxy-Coal Combustion by Temperature-Programmed Desorption,” Energy and Fuels, 23(2), 1134-1135 (2009).
  4. Gathitu, B.B., W.Y. Chen, and M.C. McClure “Effects of Coal Interaction with Supercritical CO2: Physical Structure,” Industrial and Engineering Chemistry Research, 48(10), 5024-5034, (2009).

2008

  1. Chen, W.Y., G. Shi, and S. Wan, “Characterization of Early-Stage Coal Oxidation by Temperature-Programmed Desorption,” Energy and Fuels, 22(6), 3724-3735 (2008).
  2. Chen, W.Y., G.C. Gowan, G. Shi, and S. Wan, “A Gravity-Driven Low-Rate Particle Feeder,” Review of Scientific Instruments, 79, 083904-1 to 083904-5 (2008).
  3. Chen, W.Y., and J. Liu, “Mathcad Modules for Supercritical Fluid Extraction Based on Mixing Rules,” Chapter 45, Innovations 2008, International Network for Engineering Education and Research (iNEER), W. Aung, J. Mecsi, J. Moscinski, I. Rouse, P. Willmot, ed., pp.511-518, July, 2008.
  4. Chen, W.Y., “Pretreatment for Simultaneous Reduction of Nitrogen Oxide Emission and Unburned Carbon in Flyash from Coal Combustion,” invention disclosure submitted to the University of Mississippi, 2008.

2007

  1. Chen, W.Y., S. Wan, and G. Shi, “Stable Surface Oxides on Chars and Impact of Reactor Materials at High Temperatures,” Energy and Fuels, 21(2), 778-792 (2007).
  2. Gathitu, B.B., W.Y. Chen, Y. Su, and J.R. Woolsey, “Effective Reburning by Natural Gas Substitutes,” invention disclosure submitted to the University of Mississippi, September 17, 2007.
  3. Williford, C.W., W.Y. Chen, L.K. Wang, and N.K. Shammas, “Lime Stabilization,” in “Handbook of Environmental Engineering, Volume 6. Biosolids Treatment Processes,” L.K. Wang, N.K. Shammas, and Y.T. Hung, ed., pp.207-242, Humana Press, New Jersey (2007).
  4. Wang, L.K., C.W. Williford, W.Y. Chen, and N.K. Shammas, “Low Temperature Thermal Processe,” in “Handbook of Environmental Engineering, Volume 6.  Biosolids Treatment Processes,” L.K. Wang, N.K. Shammas, and Y.T. Hung, ed., pp.299-230, Humana Press, New Jersey (2007).
  5. Wang, L.K., C.W. Williford, W.Y. Chen, N.K. Shammas, and G.P. Sakellaropoulos, “Evaporation Processe,” in “Handbook of Environmental Engineering, Volume 6. Biosolids Treatment Processes,” L.K. Wang, N.K. Shammas, and Y.T. Hung, ed., pp.583-612, Humana Press, New Jersey (2007).
  6. Williford, C.W., W.Y. Chen, L.K. Wang, and N.K. Shammas, “High Temperature Thermal Processe,” in “Handbook of Environmental Engineering, Volume 6.  Biosolids Treatment Processes,” L.K. Wang, N.K. Shammas, and Y.T. Hung, ed., pp. 613-644, Humana Press, New Jersey (2007).

2006

  1. Chen, W.Y., and B. B. Gathitu, “Design of Mixed Fuel for Heterogeneous Reburning,” Fuel, 85(12-13), 1781-1793 (2006).
  2. Scovazzo, P., W.Y. Chen, L.K. Wang, and N.K. Shammas, “Solvent Extraction, Leaching and Supercritical Extraction,” in “Handbook of Environmental Engineering, Volume 4. Advanced Physicochemical Treatment Processes,” L.K. Wang, Y.T. Hung, and N.K. Shammas, ed., pp.581-614, Humana Press, New Jersey (2006).

2005

  1. Chen, W.Y, "Stochastic Processes," in “ Encyclopedia of Nonlinear Science ,” A. Scott ed., pp.881-883, Routledge, Taylor Francis, London, England (2005).
  2. Chen, W.Y., and S. Bokka, “Stochastic Modeling of Nonlinear Epidemiology,” Journal of Theoretical Biology , 234 (4), 455-470 (2005).
  3. Chen, W.Y., and H. Sarv, “ In-Furnace Reduction of Nitrogen Oxide by Mixed Fuels ,” provisional patent submitted through the University of Mississippi, 2005.
  4. Wang, L.K., C.W. Williford, and W.Y. Chen, “Desulfurization and Emission Control,” in “ Handbook of Environmental Engineering, Volume 2. Advanced Air and Noise Pollution Control, ” L.K. Wang, N.C. Pereira, and Y.T. Hung, ed., pp.35-95, Humana Press, New Jersey (2005).
  5. Yeh, J.T., and W.Y. Chen, “Control of Nitrogen Oxides during Coal Combustion,” in “ Handbook of Environmental Engineering, Volume 2. Advanced Air and Noise Pollution Control ,” L.K. Wang, N.C. Pereira, and Y.T. Hung, ed., pp.113-126, Humana Press, New Jersey (2005).

2004

  1. Chen, W.Y., "Stochastic Modeling  of Tumor Growth,” WSEAS Transactions on Biology and Biomedicine , 3 (1), 320-325 (2004).
  2. Chen, W.Y., “Stochastic Analysis of Nonlinear Biological and Ecological Processes ,” Plenary Lecture, International Conference on Mathematical Biology and Ecology, World Scientific and Engineering Academy and Society, Corfu Island, Greece, August 17-19, 2004; see http://www.worldses.org/plenary/index.html .
  3. Wang, L.K., C.W. Williford, and W.Y. Chen, “Fabric Filtration,” in “ Handbook of Environmental Engineering, Volume 1. Air Pollution Control Engineering ,” L.K. Wang, N.C. Pereira, and Y.T. Hung, ed., pp.59-95, Humana Press, New Jersey (2004).
  4. Wang, L.K., C.W. Williford, and W.Y. Chen, Condensation,” in “Handbook of Environmental Engineering, Volume 1. Air Pollution Control Engineering ,” L.K. Wang, N.C. Pereira, and Y.T. Hung, ed., pp.307-328, Humana Press, New Jersey (2004).
  5. Wang, L.K., C.W. Williford, and W.Y. Chen, “Flares,” in “Handbook of Environmental Engineering, Volume 1. Air Pollution Control Engineering ,” L.K. Wang, N.C. Pereira, and Y.T. Hung, ed., pp.329-345, Humana Press, New Jersey (2004).

2003

  1. Dickson, J.L, J.A. Hart and W.Y. Chen, "Construction and Visualization of VLE Envelopes in Mathcad", Chemical Engineering Education, 37(1), 20-23 (2003)..
  2. Chen, W.Y., P. Annamreddy, and L.T. Fan, "Modeling Growth of a Heterogeneous Tumor", Journal of Theoretical Biology, 221(2), 205-227 (2003).
  3. Fan, L.T., A. Argoti-Caicedo, S.T. Chou, and W.Y. Chen, “Stochastic Modeling of Thermal Death Kinetics of a Cell Population: Revisited,” Chemical Engineering Education , 37 (3), 228-235 (2003).

2001

  1. Chen, W.Y., and L. Tang, "Variables, Kinetics and Mechanisms of Heterogeneous Reburning," AIChE Journal, 47(12), 2781-2797 (2001).
AIChE Journal

2000

  1. Fan, L.T., S.T. Chou, W.Y. Chen, M.T. Bai, and J.P. Hsu, "Modeling Fluctuations in the Growth Rate of a Single Crystal," in Mixing and Crystallization, S. Shaliza and B. Sen Gupta ed., Kluwer Academic Publishers, Dordrecht, The Netherlands, pp.253-265 (2000).
  2. Chen, W.Y., "Role of Carbon Monoxide during Heterogeneous Reburning of Nitrogen Oxide," Proceedings of the Topical Conference on Energy and the Environment, American Institute of Chemical Engineers, pp.128-131, (2000).

1999

  1. Chen, W.Y., A.U. Kulkarni, J.L. Milum, and L.T. Fan, "Stochastic Modeling of Carbon Oxidation," AIChE Journal, 45(12), 2557-2570 (1999).
  2. Chen, W.Y., "Rate Measurement with a Laboratory-Scale Tubular Reactor", Chemical Engineering Education, 33(3), 238-243 (1999).
  3. Tang, L., and W.Y. Chen, "Improvements on A Particle Feeder for Experiments Requiring Steady and Low Feed Rates", Review of Scientific Instruments, 70(7), 3143-3144 (1999).

1998

  1. Chen, X.Y., W.Y. Chen, A.H. Hikal, B.C. Shen, and L.T. Fan, "Stochastic Modeling of Controlled Drug Release", Biochemical Engineering Journal, 2(2), 161-177 (1998).
  2. Chou, S.T., L.T. Fan, W.Y. Chen, M.T. Bai, and J.P. Hsu, "Effects of Size-Dependent Growth Rate on Fluctuations of Transient Crystal-Size Distribution in Batch Crystallizer," in International Conference on Mixing and Crystallization, S. Shaliza and B. Sen Gupta ed., Tioman Island, Malaysia, pp.P-1 - P-12 (1998).
  3. Fan, L.T., M.T. Bai, and W.Y. Chen, "Modeling Bed-Load Transport by the Master-Equation Approach" in Fluidization and Fluid-Particle Systems, Recent Research and Development, AIChE Symposium Series, 94(319), 63-69 (1998).

1997

  1. Chen, W.Y., L.T. Fan, and M.T. Bai, "Applications of Master Equation Approach to Sediment Transport Research - Einstein's Model Revisited," Proceedings of the Conference on Management of Landscapes Disturbed by Channel Incision, Oxford, Mississippi, pp. 911-916, May 20-22, 1997.
  2. Lin, L., and W.Y. Chen, "Carrousel Activated Sludge Process for Leachate," Proceedings of the Thirteenth International Conference on Solid Waste Technology and Management, Volume 1, Philadelphia, PA, November 16-19, 1997.
  3. Fan, L.T., M.T. Bai, and W.Y. Chen, "Modeling Bed-Load Transport by the Master-Equation Approach," Topical Conference Preprints, Fluidization and Fluid-Particle Systems, American Institute of Chemical Engineers, pp.75-79, November, 1997.

1996

  1. Chen, W.Y., and L. Ma, "Effects of Heterogeneous Mechanisms during Reburning of Nitrogen Oxide," AIChE J., 42(7), 1968-1976 (1996).
  2. Chen, W.Y., "Asymptotic Expansions of the Washout Function for Stirred Tanks in Series," Hungarian Journal of Industrial Chemistry, 24(1), 21-24, 1996.
  3. Chen, X.Y., W.Y. Chen, A.H. Hikal, B.C. Shen, and L.T. Fan, "Modeling Fluctuations during Controlled Drug Release," Proceedings of the Fifth World Congress of Chemical Engineering, San Diego, CA, Volume 2, pp. 834-839, July 14-18, 1996.

1995

  1. Chen, W.Y., "Pyrolysis and Combustion Kinetics of Pine Bark," in Advances in Pulping and Papermaking, P.W. Hunt ed., AIChE Symposium Series, 91(307), 143-153 (1995).
  2. Chen, W.Y., and L. Ma, "Importance of Heterogeneous Mechanisms during Reburning of Nitrogen Oxide," Proceedings of the Third International Symposium on Coal Combustion, Beijing, China, pp. 594-601, September 18-21, 1995.
  3. Zhang, Z.P., W.Y. Chen, and L.T. Fan, "Stochastic Analysis of Particle Dynamics by Master Equation Approach," Proceedings of the Third International Symposium on Coal Combustion, Beijing, China, pp. 167-174, September 18-21, 1995.

1994

  1. Chen, W.Y., Z.P. Zhang, B.C. Shen, and L.T. Fan, "Stochastic Modeling of Tar Molecular Weight Distribution during Coal Pyrolysis," Chemical Engineering Science, 49(22), 3687-3698 (1994).
  2. Chen, W.Y., G. Nagarajan, Z.P. Zhang, B.C. Shen, and L.T. Fan, "Stochastic Modeling of Devolatilization-Induced Coal Fragmentation during Fluidized Bed Combustion," Industrial and Engineering Chemistry Research, 33(1), 137-145 (1994).
  3. Burch, T.E., W.Y. Chen, T.W. Lester, and A.M. Sterling, "Interaction of Fuel Nitrogen with Nitric Oxide during Reburning with Coal," Combustion and Flame, 98(4), 391-401 (1994).
  4. Shen, B.C., L.T. Fan, and W.Y. Chen, "Stochastic Modeling of Adsorption in a Batch System," Journal of Hazardous Materials, 38(3), 353-371 (1994).

1993

  1. Chen, W.Y., X.Y. Chen, R.F. Tavlin, Z.P. Zhang, B.C. Shen, and L.T. Fan, "Randomness of Primary Coal Fragmentation," Proceedings of the 7th International Conference on Coal Science, Volume 1, pp.355-358, International Energy Agency (1993).

1991

  1. Burch, T.E., R.B. Conway, and W.Y. Chen, "A Practical Pulverized Coal Feeder for Bench-Scale Combustion Requiring Low Feed Rates," Review of Scientific Instruments, 62(2), 480-483 (1991).
  2. Burch, T.E., F.R. Tillman, W.Y. Chen, T.W. Lester, R.B.Conway, and A.M. Sterling, "Partitioning of Nitrogeneous Species in the Fuel-Rich Stage of Reburning", Energy and Fuels, 5(2), 231 (1991).

1990

  1. W.Y. Chen and F.M. Kazimi, "Coal Liquefaction in Primary Aliphatic Amine Systems", Industrial and Engineering Chemistry Research, 29(7), 1109 (1990).

Paul Scovazzo

Profile & Research Interests

2003

  1. "Electrochemical Separation and Concentration of <1% Carbon Dioxide from Nitrogen;" P. Scovazzo, J. Poshusta, D. DuBois, C. Koval, & R. Noble; J. of The Electrochemical Society; 2003.

2002

  1. "Supported Ionic Liquid Membranes and Facilitated Ionic Liquid Membranes (FILMs);" P. Scovazzo, A. Visser, J. Davis, R. Rogers, C. Koval, D. DuBois, & R. Noble; Chapter 6 in Industrial Applications of Ionic Liquids, Editors R. Rogers & K Seddon; American Chemical Society Books; ISBN: 0-8412-3789-1; 2002

2001

  1. "Modeling of Disjoining Pressure in Submicrometer Liquid-Filled Cylindrical Geometries;" P. Scovazzo and P. Todd; J. of Colloid and Interface Sci.; Vol. 238, pg. 230-237; 2001
  2. "Modeling of Two-Phase Flow in Membranes and Porous Media in Microgravity as Applied to Plant Irrigation in Space;" P. Scovazzo, T. Illangasekare, A. Hoehn, and P. Todd; Water Resources Research; Vol. 37, No. 5, pg. 1231-1243, May 2001.

2000

  1. "Membrane Porosity and Hydrophilic Membrane-Based Dehumidification Performance;" P. Scovazzo, A. Hoehn, and P. Todd; Journal of Membrane Science; Vol. 167, pg. 217-225; 2000
  2. "Methods for Saturating Rigid Porous Membranes with Water;" P. Scovazzo, A. Hoehn, and P. Todd; American Laboratory; March 2000

1998

  1. "Hydrophilic Membrane-Based Humidity Control;" P. Scovazzo, J. Burgos, A. Hoehn, and P. Todd, Journal of Membrane Science; Vol. 149, pg. 69-81; 1998
  2. "Mass Transport in a Spaceflight Plant Growth Chamber;" A. Hoehn, J. Clawson, A. Heyenga, P. Scovazzo, K. Sterrett, L. Stodieck; P. Todd, and M. Kliss; S.A.E. Transactions; Vol. 107, No. 1; pg 275; 1998

1997

  1. "Membrane-Based Humidity Control in Microgravity: A Comparison of Membrane Material Performance and Design Equations;" P. Scovazzo, P. Todd , J. Burgos, N. Lattarulo, and A. Hoehn; S.A.E. Transactions; Vol. 106, No. 1; pg 488; 1997

 

John H. O'Haver

Profile & Research Interests
Atomic Force Microscopy
Fundamental and Applied Surface Science
K-12 Outreach

2007

  1. W. Saphanuchart, C. Saiwan, J.H. O’Haver, “Temperature Effects on Adsolubilization of Aromatic Solutes Partitioning to Different Regions in Cationic Admicelles”, accepted by Colloids and Surfaces A, October, 2007.
  2. W. Saphanuchart, C. Saiwan, J.H. O’Haver; “Effect of adsolubilized solutes on 2-D structure of cationic admicelles”, accepted by Colloids and Surfaces A, May, 2007.
  3. P. Rangsunvigit, P. Imsawatgul, N. Na-ranong, J.H. O’Haver, S. Chavadej, “Mixed Surfactants for Silica Surface Modification by Admicellar Polymerization Using a Continuous Stirred Tank Reactor”, accepted to Chemical Engineering Journal, April, 2007.

2006

  1. Y. Tan, G. Davidson, C.H. See, C. Dunbar, J.H. O’Haver, S. Rice, D.W. Harrelson and M. Zakikhani, “Picric Acid Degradation in Sediments from the Louisiana Army Ammunition Plant”, Water, Air and Soil Pollution, accepted March, 2006.
  2. P. Asvapathanagul, P. Malakul, and J.H. O' Haver, "Adsolubilization of Toluene and Acetophenone as a Function of Surfactant Adsorption", Journal of Colloid and Interface Science, 292(2) (2006).
  3. S. Cheboyina, J. O'Haver and C. M. Wyandt, “A Mathematical Model to Predict the Size of the Pellets Formed in Freeze Pelletization Techniques: Parameters Affecting Pellet Size”, Journal of Pharmaceutical Science, 95, January, 2006.
  4. A. Selvam, C.H. See, B. Barkdoll , S. Prasad , J. O'Haver, “Method for Use of Atomic Force Microscopy for Examining Wet Clay”, Journal of Clay and Clay Minerals , 54, February, 2006.

2005

  1. P. Nontasorn, S. Chavadej, P. Rangsunvigit, J.H. O’Haver, S. Chaisirimahamorakot, N. Na-Ranong, “Admicellar polymerization modified silica via a continuous stirred-tank reactor system: Comparative properties of rubber compounding”, Chemical Engineering Journal, 108 (2005).
  2. S. Katchamart, N. Sam Hom, S. Arayawongkul, N. Aumsuwan, M. Nithithanakul, and J.H. O’Haver, “Characterization of Polymer Formed via Admicellar Polymerization: Copolymerization of Styrene/Isoprene”, Proceedings of the 7th World Congress of Chemical Engineering, Glasgow, Scotland, Jul 10-14, (2005).

2004

  1. S. Stodghill, A. E. Smith, J.H. O'Haver, "Thermodynamics of micellization and adsorption of three alkyltrimethylammonium bromides using isothermal titration calorimetry”, Langmuir, 20:26, October, 2004.
  2. Y. Tan and J.H. O'Haver, “Use of the BET Adsorption Isotherm Equation to Examine Styrene Adsolubilization by Nonionic Surfactants at the Water-Silica Interface”, Journal of Colloid and Interface Science , 279:2, 2004.
  3. C.H. See and J.H. O'Haver, "Two Dimensional Phase Equilibrium of Styrene Adsolubilized in Cetyltrimethylammonium Bromide Admicelles on Mica", Colloids and Surfaces A, 243, May, 2004.
  4. Y. Tan and J.H. O'Haver, "Lipophilic Linker Impact on Adsorption of and Styrene Adsolubilization in Polyethoxylated Octylphenols", Colloids and Surfaces A, 232:2-3 (2004) .
  5. J.H. O'Haver, R. Walk, B.Kitiyanan, J.H. Harwell, D.A. Sabatini, "Packed Column and Hollow Fiber Air Stripping of a Contaminant-Surfactant Stream", Journal of Environmental Engineering, 130:1 (2004).
  6. P. Malakul, P. Kessadayurat, S. Ojanakajorn, and J.H. O’Haver, “Surfactant Adsorption and Adsolubilization of Organic Solutes into Adsorbed Surfactant in Mixed Cationic-Nonionic Surfactant Systems” , Proceedings of the 10th APCChE Congress, Kitakyushu, Japan, October 17-21, (2004).
  7. E. Lackey, J. Vaughan, J. O’Haver, K. Inamdar, and B. Hancock, “Research Report on the Cost-Effective Pultrusion Processing of Polymeric Composites with Natural Fiber Reinforcement", Global Outlook for Natural Fiber and Wood Composites, New Orleans, December (2004).

2003

  1. T. Pradubmook, J.H. O'Haver, P. Malakul, J.H. Harwell, "Effect of pH on Adsolubilization of Toluene and Acetophenone into Adsorbed Surfactant on Precipitated Silica", Colloids and Surfaces A, 224 (2003).
  2. C.H. See, J.H. O'Haver, "Atomic Force Microscopy Characterization of Polystyrene Ultrathin Film Fomed by Admicellar Polymerization on Silica Disks", Journal of Applied Polymer Science, 89:1, (2003).
  3. C.H. See, J.H. O'Haver, "Atomic Force Microscopy Studies of Admicellar Polymerization Polystyrene Modified Amorphous Silica", Journal of Applied Polymer Science, 87:2, (2003).
  4. W. Saphanuchart, C. Saiwan, J.H. O'Haver, “Topographic Characterization of Ultrathin Silica Film Grown on Mica by Admicellar Polymerization of Tetra-N-Butoxysilane” ,Proceedings of the First International Symposium on Process Intensification and Miniaturization (PIM-1), Newcastle, UK, August 18-21 (2003).

2002

  1. J. Dickson, J.H. O'Haver, "The Adsolubilization of Naphthalene and -Naphthol in CnTAB Admicelles", Langmuir, 18:24 (2002).
  2. M.A. Repka, J.H. O'Haver, C.H. See, K. Gutta, and M. Munjal, "Human Nail Morphology Studies as Assessments for Onychomycosis Treatment Modalities", International Journal of Pharmaceutics, 245 (2002) 25-36.
  3. P. Nontasorn, S. Chavadej, R. Rangsunvigit, N. Na-Ranong, J.H. O'Haver and J.H. Harwell, "Admicellar Polymerization on Silica Surface in a Continuous Reactor”; Proceedings of 9th Asian Pacific Confederation of Chemical Engineering and 30th Annual Australian Chemical Engineering, Christchurch, New Zealand, (2002).

2001

  1. J.H. O'Haver, J.H. Harwell, E.A. O'Rear, and B.P. Grady, "Admicellar Polymerization", Chapter 27 in Reactions and Synthesis in Surfactant Systems, J. Texter Editor, Marcel Dekker, 2001.
  2. "Modification of Silica Surface for Rubber Reinforcement using a Continuous Reactor”, S. Chaisirimahamorakot, S. Chavadej, P. Rangsunvigit, J.H. O'Haver, and J.H. Harwell; Proceedings of the 11 th National Conference on Chemical Engineering and Applied Chemistry, Nakornrachasima, Thailand, 2001.

1999

  1. A.E. Riviello, J.F. Scamehorn, S.D. Christian, and J.H. O'Haver, "A Novel Technique for the Production of Customized HPLC Packings", Journal of Surfactants and Detergents, 2, 1, (1999)
  2. B. Kitiyanan, J.H. O'Haver, J.H. Harwell, and D.A. Sabatini, "The Use of Liquid-Liquid Extraction in Hollow Fiber Membrane for the Removal of Organic Contaminants from Aqueous Surfactant Streams", Chapter 6 in Surfactant-Based Separations, J.F. Scamehorn and J.H. Harwell, editors, ACS Symposium Series #740, December, 1999.
  3. J.H. Harwell, D.A. Sabatini, C.C. Chang, J.H. O'Haver, and T.J. Simpkin, Reuse of Surfactants and Cosolvents for NAPL Remediation, D.F. Lowe, C.L. Oubre and C.H. Ward (editors), ISBN 1-56670-466-9, CRC Press LLC-Lewis Publishers, Boca Raton, 1999.

1998

  1. U.N. Choori, J.F. Scamehorn, J.H. O'Haver, and J.H. Harwell, "Removal of Volatile Organic Compounds from Surfactant Solutions by Flash Vacuum Stripping in a Packed Column", Ground Water Monitoring and Remediation, 18,4, (1998).

1996

  1. N.P. Hankins, J.H. Harwell, and J.H. O'Haver, "Modeling Effects of pH and Counterions on Surfactant Adsorption at the Oxide/Water Interface", Industrial and Engineering Chemistry Research, 35, 9, (1996).
  2. B. Kitiyanan, J.H. O'Haver, J.H. Harwell, S. Osuwan, "Adsolubilization of Styrene and Isoprene in Cetyltrimethyl Ammonium Bromide Bilayers on Silica", Langmuir, 12, (1996).
  3. J.H. O'Haver, J.H. Harwell, W.H. Waddell, and L.J. Snodgrass, "Polar Organic Polymer- Surface Modified Precipitated Silica", Journal of Applied Polymer Science, 59, (1996).
  4. V. Thammathadanukul, J.H. O'Haver, J.H. Harwell, S. Osuwan, and N. Na-Ranong, "Comparison of Rubber Reinforcement Using Various Surface Modified Silicas", Journal of Applied Polymer Science, 59, (1996).

1995

  1. J.H. O'Haver and J.H. Harwell, "Adsolubilization: Some Expected and Unexpected Results", ACS Symposium Series #615, 1995.
  2. W.H. Waddell, J.H. O'Haver, L.R. Evans, and J.H. Harwell, "Organic Polymer-Surface Modified Precipitated Silica", Journal of Applied Polymer Science, 55, 1995.
  3. J.H. O'Haver, J.H. Harwell, L.L. Lobban, E.A. O'Rear, "Adsolubilization", a chapter in: Solubilization in Surfactant Solutions, Christian, S.D., and Scamehorn, J.F. (Editors), Marcel Dekker, New York, Surfactant Science Series, #55, 1995.

1994

  1. J.H. O'Haver, J.H. Harwell, E.A. O'Rear, W.H. Waddell, and L.J. Snodgrass, "In-Situ Formation of Polystyrene in Adsorbed Surfactant Bilayers on Precipitated Silica",Langmuir, 10, 8, 1994.

 

Ajit Sadana

Profile & Research Interests
Biosensors and Biokinetics

2007

  1. Shelton, K.C., Taneja, R., and Sadana, A., "Fractal Binding and DIssociation Kinetics of Prion Protiens on Biosensor Surfaces", invited paper for special issue "Emergent Applications of Fractals and Wavelets in Biology and Medicine", Ed. Rodrigo C. Guido, Journal of Applied Mathematics and Computation, in press.
  2. Shelton K.C. and Sadana, A., “Fractal Analysis of Binding and Dissociation of Protein-Analyte Interactions on Biosensor Surfaces,” Communicating Current Research Educational Topics and Trends in Applied Microbiology, Applied Microbiology Series, Formatex, Bagadoz, Spain (in press)
  3. Taneja, R., Shelton, K.C., and Sadana, A., “Advances in Biosensing Methods,” Sensors & Transducers Journal, 76(2), 945-968 (2007).
  4. Taneja,  R., Shelton, K.C., and Sadana, A., “Fractal Binding and Dissociation Kinetics and Interactions of Cancer Markers on Biosensor
    Surfaces,” Journal of Receptors and Signal Transduction, 27, 1-21 (2007).
  5. Morris, B.A., and Sadana, A., “A Fractal Analysis of the Binding Kinetics of the Heat-Shock Protein Chaperone DnaK on a SPR Biosensor Surface,”SensorLetters, 5 (1), 1-8 (2007).

 

Sadana Book 1

2006

  1. “Binding and Dissociation Kinetics for Different Biosensor Applications Using Fractals,” Elsevier, Amsterdam, 2006.
  2. Doke, A.M. and Sadana, A., “A Fractal Analysis of Heart-Related Compounds on Biosensor Surfaces,” Journal of Receptors and Signal Transduction,
    26, 337-357 (2006).
  3. Doke, A. M, and Sadana, A., “Detection of Glucose and Related Analytes by Biosensors:  A Fractal Analysis,”
    Journal of Receptors and Signal Transduction26, 337-357 (2006).
  4. Doke, A.M. and Sadana, A., “Detection of Glucose and Related Analytes by Biosensors,” Biotechnology Progress, 22, 14-23 (2006).  
  5.  Mathur, S.K., Doke, A.M., and Sadana, A., “Identification of Hair Cycle Associated Genes from Time Course Gene Expression From Gene
    Expression Profile Using Fractal Analysis,” International Journal of Bioinformatics Research and its Applications, 2(3), 249-258 (2006).
  6.  Sadana, A., “Biosensor Surface Phenomena,” Encyclopedia of Surface and Colloid Science, Ed., P. Somasundaran, Taylor and Francis,
    New York, NY (2006).
  7. Sadana, A., Doke, A.M. and Vo-Dinh, T., “Protein Folding:  Biomedical Implications,”  Volume 1, Ed. S.L. Lee, CRC Press, Boca Raton, Florida,
    pp. 2479-2488 (2006).       
  8. Sadana, A., Doke, A.M., and Vo-Dinh, T., “A Fractal Analysis of Glucose and Related Analytes on Biosensor Surfaces at the Nanoscale Level,”
    Nanotechnology in Biology and Medicine, Ed. Vo-Dinh, T., Chapter 28, pp. 507-522 (2006).
  9. Sadana, A. and Doke, A.M., “Fractal Binding and Dissociation Kinetics of Lecithin Cholesterol Acyl Transferase (LCAT), a Heart-Related
    Compound, on Biosensor Surfaces,” Chemical and Biological Sensing VII, Proceedings of SPIE, Volume 6218, Eds. P.J. Gardner and A.W.
    Fountain III, 6218-39 (2006).
  10. Sadana, A. and Doke, A.M., “A Fractal Analysis of Pathogen Detection by Biosensors,”  Chemical and Biological Sensing VII, Proceedings of SPIE,
    Volume 6218, Eds. P.J. Gardner and A.W. Fountain III, 6218-22 (2006).

2005

  1. “Fractal Binding and Dissociation Kinetics for Different Biosensor Applications,” Elsevier, Amsterdam, 2005.
  2. Jeyashekar, N.S., Sadana, A., and Vo-Dinh, T., “Protein Amyloidose Misfolding:  Mechanisms, Detection, and Pathological Implications,”
    In Protein Nanotechnology:  Protocols, Instrumentation, and Applications,  Ed., Vo-Dinh, T., Chapter 19, 417-435 (2005).
  3. Doke, A.M. and Sadana,A., “A Fractal Analysis of Binding and Dissociation Kinetics of Glucose and Related Analytes on Biosensor
    Surfaces,” Tenth Annual Institute of Biological Engineering Meeting proceedings, Biology-Inspired Engineering, Ed. Brahm Verma, The
    University of Georgia Continuing Education Center, Athens, Georgia, March 4-5, 2005, pp. 1-38.
  4. Morris, B.A. and Sadana, A., “A Fractal Analysis of Pathogen Detection by Biosensors,” Biophysical Chemistry, 113, 67-81 (2005).
  5. Ramakrishnan, A., Tan, Y., and Sadana, A., “A Kinetic Study of Analyte-Receptor Binding and Dissociation for Surface Plasmon Resonance Biosensor Applications,“ IEEE Sensors Journal, 5(3), 356-364 (2005).

2004

  1. Butala, H.D., Ramakrishnan, A., Vo-Dinh, T., and Sadana, A., "Biosensor Surface Phenomena," in Encyclopedia of Surface and Colloid Science, ed. P. Somasundaran, Marcel Dekker, New York (in press).
  2. Jeyshekar, N., Vo-Dinh, T., and Sadana, A,. "Protein Folding:  Bioprocessing and Biomedical Implications," in Encyclopedia of Chemical Processing," ed. S. Lee, Marcel Dekker, New York (in press).
  3. Morris B.A., and Sadana, A., "A Fractal Analysis of the Binding Kinetics of the Heat-Shock Protein Chaperone DnaK on a SPR Biosensor Surface," in Encyclopedia of Sensors, eds. C. Grimes, E.C. Dickey, American Scientific Publishers (in press).
  4. Morris, B.A., and Sadana, A., "A Fractal Analysis of Pathogen Detection by Biosensors," Biophysical Chemistry (in press).
  5. Morris, B.A., and Sadana, A., "A Fractal Analysis for the Binding of Riboflavin Binding Protein to Riboflavin Immobilized on a SPR Biosensor," Sensors & Actuators B (in press).
  6. Butala, H.D. and Sadana, A., "Binding and Dissociation Kinetics Using Fractals: An Analysis of Electrostatic Effects and Randomly Coupled and Oriented Coupled Receptors on Biosensor Surfaces", Biosensors and Bioelectronics, 19(8), 933-944 (2004).
  7. Ramakrishnan, A., Tan, Y., and Sadana, A., "A Kinetic Study Of Analyte-Receptor Binding And Dissociation For Surface Plasmon Resonance Biosensor Applications," IEEE Sensors Journal (in press).
  8. Harshala D. Butala, Yongqiang Tan, and Ajit Sadana, "Analyte-Receptor Binding On SPR Biosensors:  A Fractal Analysis Of Cre-loxP Interactions and the Influence of Cl, O, and S, on Drug/Liposome Interactions," Analytical Biochemistry (in press). 
  9. Butala, H.D., Sadana, A., "A Fractal Analysis of Binding Kinetics on Biosensor Surfaces," In Dekker Encyclopedia of Nanoscience and Nanotechnology, James A. Schwarz, Cristian I. Contescu, and Karol Putyera, Eds., Marcel Dekker, Inc., New York, N.Y., 2004;  pp. 1191-1202.


    2003

    1. Sadana, A., "Biosensors:  Kinetics of Binding and Dissociation Using Fractals," Elsevier Science, Amsterdam, The Netherlands, 2003.
    2. Jeyshekhar, N., Sadana, A., and Vo-Dinh, T., "Pathological Implications of Misfolded Proteins: Amyloidoses," Protein Nanotechnology Protocols, Methods in Molecular Biology, ed. Vo-Dinh, T., The Humana Press, Inc., Totowa, New Jersey (in press).
    3. Butala, H.D., and Sadana, A. "A Fractal Analysis of Analyte-Estrogen Receptor Binding and Dissociation Kinetics Using Biosensors: Environmental Effects", Journal of Colloid and Interface Science, 263, 420-431 (2003).
    4. Sadana, A., "A Fractal Analysis of Protein to DNA Binding Kinetics Using Biosensors", Biosensors & Bioelectronics, 18 (8), 985-997 (2003).
    5. Butala, H.D., Ramakrishnan, A., and Sadana, A., "A Mathematical Analysis Using Fractals for Binding Interactions of Estrogen Receptors to Different Ligands on Biosensor Surfaces", Sensors and Actuators B, 88, 266-280 (2003).
    6. Butala, H.D. and Sadana, A., "A Fractal Analysis of analyte-estrogen receptor binding and dissociation kinetics using biosensors: Environmental and biomedical effects", Biosystems, 70, 255-270 (2003).
    7. Jeyshekhar,N.S., and Sadana, A., "Kinetic Versus Thermodynamic Perspectives of Protein Folding Mechanisms and Drug Therapy," AIChE Annual Meeting, Conference Proceedings, San Francisco, CA (2003), pp. 20-34, American Institute of Chemical Engineers (publisher), New York, NY.

 

2002

  1. Ramakrishnan, A. and Sadana, A., "A Kinetic Study of Analyte-Receptor Binding and Dissociation Kinetics for Biosensor Applications: A Fractal Analysis for Two Different DNA Systems", Biosystems, 66(3) 165 (2002).
  2. Butala, H.D., Ramakrishnan, A., and Sadana, A., "A Fractal Analysis of Analyte-Receptor Binding and Dissociation Kinetics on Microcantilever Biosensors," American Institute of Chemical Engineers Sensors Technology Conference Proceedings, C.C. Liu et al. eds., New York, pp. 31-39, November 3-8, 2002.
  3. Butala, H.D., Ramakrishnan, A., and Sadana, A., "A Kinetic Analysis of Analyte-Receptor Binding and Dissociation Using Biosensors for Biomedical Applications," American Institute of Chemical Engineers Sensors Technology Conference Proceedings, C.C. Liu et al. eds., New York, pp. 93-101, November 3-8, 2002.
  4. Sadana, A. and Ramakrishnan, A., "A Kinetic Study of Analyte-Receptor Binding and Dissociation for Surface Plasmon Resonance Biosensor Applications", Sensors 2002, Proceedings of IEEE, 282-287.
  5. Ramakrishnan, A. and Sadana, A., "A Mathematical Analysis Using Fractals for Binding Interactions of Nuclear Estrogen Receptors Occurring on Biosensor Surfaces", Analytical Biochemistry, 303, 78 (2002).
  6. Sadana, A. and Ramakrishnan, A., "A Kinetic Study of Analyte-Receptor Binding and Dissociation for Biosensor Applications: A Fractal Analysis for Cholera Toxin and Peptide-Protein Interactions", Sensors and Actuators B, 85, 61(2002).
  7. Austin, M.J. and Sadana, A., "A Fractal Analysis of Analyte-Receptor Binding and Dissociation Kinetics in Microcantilever Biosensors", Sensors and Actuators B, 82, 186 (2002).
  8. Ramakrishnan, A. and Sadana, A., "Biosensors: An Emerging Tool in Bioanaytical Research. A Kinetic Analysis of the Analyte-Receptor Interactions in Biosensors", in Methods for Affinity Based Separations for Enzymes and Proteins, M.N. Gupta, ed., Birkhauser-Verlag, Berlin, pp. 195-216, 2002.
  9. Sadana, A., Engineering Biosensors: Kinetics and Design Applications, Academic Press, San Diego CA, 2002.
Sadana Book 3

2001

  1. Sadana, A., "A Fractal Analysis Approach for the Evaluation of Hybridization Kinetics in Biosensors", Journal of Colloid & Interface Sci., 234, 9 (2001).
  2. Sadana, A. and Vo-Dinh, T., "Biomedical Implications of Protein Folding and Misfolding", Biotechnol. & Appl. Biochemistry, 33, 7-16 (2001).
  3. Sadana, A., and Vo-Dinh, T., "A Kinetic Analysis Using Fractals of Cellular Analyte-Receptor Binding and Dissociation," Biotechnol. & Appl. Biochem., 33, 17-28 (2001).
  4. Sadana, A., "A Kinetic Study of Analyte Receptor Binding and Dissociation, and Dissociation Alone, for Biosensor Applications: A Fractal Analysis," Anal. Biochem., 291(1), 34 (2001).
  5. Ramakrishnan, A. and Sadana, A., "A Single Fractal Analysis of Cellular Analyte-Receptor Binding Kinetics Utilizing Biosensors", Biosystems, 59(1), 35 (2001).
  6. Ramakrishnan, A. and Sadana, A., "A Fractal Analysis for Celluar Analyte-Receptor Binding Kinetics: Biosensor Applications," Automedica, 20(3-4),313-340 (2001).
  7. Sadana, A., "A Fractal Analysis for Analyte-Receptor Binding Kinetics for Biosensor Applications," Biotechnology & Genetic Engineering Reviews, Vol. 18, Chapter 2, S.E. Harding, Ed., Intercept Limited, Hampshire, U.K, pp. 29-48, (2001).

Bioseparations Handbook2000

  1. Ramakrishnan, A. and Sadana, A., "Analyte-Receptor Binding and Dissociation Kinetics for Biosensor Applications: A Fractal Analysis," Biosensors & Bioelectron., 15, 651 (2000).
  2. Sadana, A. and Ramakrishnan, A., "A Predictive Approach Using Fractal Analysis for Analyte-Receptor Binding and Dissociation Kinetics for Surface Plasmon Resonance Biosensor Applications," J. Colloid & Interface Science, 229, 628 (2000).
  3. Ramakrishnan, A. and Sadana, A., "An Evaluation of Cellular Analyte-Receptor Binding Kinetics Utilizing Biosensors: A Fractal Analysis," J. Colloid & Interface Science, 224, 219 (2000).
  4. Ramakrishnan, A., Vontel, S., and Sadana, A., "An Evaluation of the Hybridization Kinetics in Biosensors Using a Single Fractal Analysis," Biotechnology & Applied Biochemistry, 31(2), 161-170 (2000).
  5. Sadana, A., "Analysis of the Kinetics of Antigen-Antibody Interactions and the Fractal Dimension in Biosensors," in Biosensors and Their Applications, T.T. Ngo and V.C. Yang, eds., Kluwer Academic/Plenum Publishing, pp. 25-33 (2000).
  6. Ramakrishnan, A. and Sadana, A., "Economics of Bioseparation Processes", in Handbook of Bioseparations, S. Ahuja, ed., Separation Science & Technology Series, Vol. 2, Academic Press, pp. 667-685 (2000).
  7. Price, R. and Sadana, A., "Engineering Process Control of Bioseparation Processes," in Handbook of Bioseparations, S. Ahuja, ed., Separation Science & Technology Series, Vol. 2, Academic Press, pp. 659-665 (2000).
  8. Sadana, A., "In-vitro and In-vivo Protein Folding Mechanisms," in Methods in Non-Aqueous Enzymology, M.N. Gupta, ed., Birkhauser-Verlag, pp. 195-211 (2000).

1999

  1. Sadana, A., "A Single and a Dual-Fractal Analysis of Antigen-Antibody Binding Kinetics for Different Biosensor Applications," Biosensors & Bioelectron., 14, 515-531 (1999).
  2. Ramakrishnan, A. and Sadana, A., "An Analysis of Analyte-Receptor Binding Kinetics for Biosensor Applications: Influence of the Fractal Dimension on the Surface on the Binding Rate Coefficient," Biotechnology and Appl. Biochem., 29(1), 45 (1999).
  3. Ramakrishnan, and Sadana, A., "A Single and a Dual-Fractal Analysis of Analyte-Receptor Binding Kinetics for Surface Plasmon Resonance Biosensor Applications," J. Colloid & Interface Sci., 213, 465-478 (1999).
  4. Sadana, A. and Ramakrishnan, A., "Analyte-Receptor Binding Kinetics for Different Types of Biosensors: A Fractal Analysis", Appl. Biochem. & Biotechnol., 81(3), 161 (1999).

1998

  1. Sadana, A., Bioseparation of Proteins: Unfolding/Folding and Validations, Separation Science and Technology Series, Vol. 1, Academic Press (1998).
  2. Sadana, and Vo-Dinh, T., "Single and Dual-Fractal Analysis of Hybridization Binding Kinetics: Biosensor Applications," Biotechnol. Progr., 14, 782-790 (1998).
  3. Ramakrishnan, A. and Sadana, A., "Analyte-Receptor Binding Kinetics for Biosensor Applications: A Single-Fractal and a Dual-Fractal Analysis of the Influence of the Fractal Dimension on the Binding Rate Coefficient," J. Colloid & Interface Sci., 208, 455 (1998).
  4. Sadana, A., "An Analysis of Analyte-Receptor Binding Kinetics for Biosensor Applications: Influence of the Fractal Dimension on the Binding Rate Coefficient," Biosensors & Bioelectron., 13, 1127 (1998).
  5. Sadana, A., "An Analysis of Analyte-Receptor Binding Kinetics for Biosensor Applications: Influence of the Fractal Dimension on the Binding Rate Coefficient,", J. Colloid & Interface Sci., 198, 164 (1998).
  6. Sadana, A., "Analyte-Receptor Binding Kinetics for Biosensor Applications: An Analysis of the Influence of the Fractal Dimension on the Binding Rate Coefficient,", Applied Biochem. & Biotechnol., 73(2-3), 89 (1998).
Sadana Book 2

1997

  1. Sutaria, M. and Sadana, A., "Dual-Fractal Analysis For Antigen-Antibody Binding Kinetics For Biosensor Applications," Biotechnol. Progr., 13, 464 (1997).
  2. Sadana, A., "Binding Kinetics For Biosensor Applications Utilizing Fractals: A Categorization," J. Colloid & Interface Sci., 190, 232 (1997).
  3. Sadana, A. and Sutaria, M., "Antigen-Antibody Binding Kinetics For Biosensor Applications: A Dual-Fractal Analysis," Appl. Biochem. & Biotechnol., 62(2-3), 275 (1997).
  4. Sadana, A. and Vo-Dinh, T., "Antibody-Antigen Binding Kinetics. A Model For Multi-Valency Antibodies For Large Antigen Systems," Appl. Biochem. & Biotechnol., 67(1), 1 (1997).
  5. Sadana, A. and Sutaria, M., "Influence Of Diffusion To Fractal Surfaces On The Binding Kinetics For Antibody-Antigen, Analyte-Receptor, And Analyte-Receptorless (Protein) Systems", Biophys. Chem., 65, 29 (1997).
  6. Milum, J. and Sadana, A., "Influence Of Different Parameters On A Dual-Fractal Analysis For Antigen-Antibody Binding Kinetics For Biosensor Applications," J. Colloid & Interface Sci., 187, 128 (1997).

 

 

 

 

 

 

 

1996

  1. Sadana, A. and Vo-Dinh, T. "Fractal Analysis for the Development of Chemical Sensors for Environmental Monitoring", European Symposium on Optics for Environmental & Public Safety Proceedings, eds., Vo-Dinh, T., Werner, C., 19-23 June, 1995, Munich, FR Germany, (1996).
  2. Sadana, A. and Beelaram, A., "Antigen-Antibody Diffusion Limited Binding Kinetics For Biosensors: A Fractal Analysis", Appl. Biochem. & Biotechnol., 59, 259 (1996).
  3. Sadana, A. and Chen, Z., "Influence Of Non-Specific Binding On Antigen-Antibody Binding Kinetics For Biosensor Applications," Biosensors & Bioelectron., 11, 17 (1996).
  4. Sadana, A. and Chen, Z., "A Fractal Analysis of the Influence of Non-Specific Binding on Antigen-Antibody Binding Kinetics for Biosensor Applications," Biosensors Bioelectron., 11, 769 (1996).
  5. Sadana, A. and Chen, Z. "An Analysis of Antigen-Antibody Binding Kinetics for Biosensor Applications Utilized as a Model System: Influence of Non-Specific Binding", Biophys. Chem., 57, 177 (1996).

1995

  1. Sadana, A., "Protein Refolding and Inactivation During Bioseparation: Bioprocessing Implications", Proceedings of "Recovery of Biological Products VII", San Diego, CA. Biotechnol. Bioengg., 48, 481 (1995).
  2. Sadana, A., Alarie, J.P., and Vo-Dinh, T., "A beta-Cyclodextrin Based Fiber-Optic Chemical Sensor: A Fractal Analysis", Talanta, 42, 1567 (1995).
  3. Sadana, A. and Beelaram, A., "Antigen-Antibody Diffusion-Limited Binding Kinetics For Biosensors: A Fractal Analysis," Biosensors & Bioelectron., 10, 301 (1995)
  4. Sadana, A., "Antigen-Antibody Binding Kinetics For Biosensors: The Fractal Dimension And The Binding Rate Coefficient," Biotechnol. Progr., 11, 50 (1995)
  5. Sadana, A. and Vo-Dinh, T., "Fractal Analysis for the Development of Chemical Sensors for Environmental Monitoring", SPIE Proceedings of Environmental Monitoring and Waste Site Remediation, T. Vo-Dinh, ed., Munich, Germany, 1995, Vol. 2504, International Society for Optical Engineering, Bellingham, WA, pp. 480-485 (1995).

1994

  1. Sadana, A. and Beelaram, A., "High Resolution Fractionation Processes: Chromatographic Techniques," Isolation and Purification, 2, 45 (1994)
  2. Sadana, A. and Beelaram, A., "Economics of Bioseparation: Some Case Studies," Bioseparation, 4, 221 (1994)
  3. Sadana, A. and Beelaram, A., "A Fractal Analysis Of Antigen- Antibody Binding Kinetics: Biosensor Applications," Biotechnology Progress, 10, 291 (1994)
  4. Sadana, A., "Bioseparation Steps In Processing Proteins And Other Biological Processes. Part 2," BioPharm, 7(3), 34 (1994)
  5. Sadana, A., "Bioseparation Steps In Processing Proteins And Other Biological Processes. Part 1," BioPharm, 7(2), 26 (1994).
  6. Sadana, A., "Protein Inactivations During Novel Bioseparation Techniques," Bioseparation, 4, 39 (1994)
  7. Sadana, A. and Madagula, A., "A Fractal Analysis Of The Influence Of A Time-Dependent Adsorption Rate Coefficient On External Diffusion Limited First-Order Kinetics For The Binding Of Antigen By Immobilized Antibody," Biosensors and Bioelectronics, 9, 45 (1994)

1993

  1. Sadana, A., "Interfacial Protein Adsorption And Inactivation," Bioseparation, 3, 297 (1993)
  2. Sadana, A. and Madagula, A. "Binding Kinetics Of Antigen By Immobilized Antibody: Influence Of Lateral Interactions And Variable Rate Coefficients," Biotechnology Progress, 9, 259. (1993).
  3. Sadana, A. and Raju, R.R., "Effect Of Chemical Modification On Enzyme Activities And Stabilities," in Biocatalyst Design For Stability And Specificity, eds. M.E. Himmel and G. Georgiou, Chapter 24, p. 296, ACS, Washington, DC (1993).

1992

  1. Sadana, A., "Inactivation Of Proteins And Other Biological Macromolecules During Chromatographic Methods Of Bioseparation," Bioseparation, 3, 145 (1992)
  2. Sadana, A. and Sii, D., " Binding Kinetics Of Antigen By Immobilized Antibody: Influence Of Reaction Order And External Diffusional Limitations," Biosensors and Bioelectronics, 7, 559 (1992)
  3. Sadana, A., "Protein Adsorption and Inactivation on Surfaces. Influence of Heterogeneities," Chem. Rev., 92, 1799 (1992)
  4. Sadana, A., "Models Of Enzyme Deactivation," in Thermostability of Enzymes, ed. M.N. Gupta, Chapter 4, pp. 84-93, Narosa, New Delhi, 1992
  5. Sadana, A. and Sii, D., "The Binding Of Antigen To Immobilized Antibody: Influence Of A Variable Adsorption Rate Coefficient On External Diffusion Limited Kinetics," J. Colloid Interface Sci., 151(1), 166 (1992)

1991

  1. Sii, D. and Sadana, A., "Adsorption Of Proteins At Interfaces," J. of Microbial Biotechnol., 6(2), 16 (1991)
  2. Sadana, A., "Bioseparations Using Affinity Techniques," J. Biotech., 19, 83 (1991)
  3. Sadana, A., "Biocatalysis: Fundamentals of Enzyme Deactivation Kinetics, Prentice Hall, Englewood Cliffs, NJ.

1990

  1. Sadana, A. and Raju, R. R., "Protein /Enzyme Inactivation During Different Chromatographic Methods Of Separation," Bioseparations, 1, 119 (1990)
  2. Malhotra, A. and Sadana, A., "Role Of The Initial State Distribution On First-Order Deactivation Of Microheterogeneous Enzyme Samples," J. Theor. Biol., 145, 143 (1990)
  3. Sadana, A. and Malhotra, A., "Effect Of Enzyme Microheterogeneity On First-Order Deactivation And Conversion In Enzyme Reactors," J. Of Microbial Biotechnology, 4(1), 1 (1990)
  4. Sadana, A. and Raju, R.R., "Bioseparation And Purification Of Proteins: An Analysis Of Novel Techniques And Inactivating Influences," Biopharm, 3(5), 53 (1990)

Peter C. Sukanek

Profile & Research Interests

1997

  1. "Anomalous' speed dependence in polyimide spin coating," J. Electrochem. Soc., 144, 3959 (1997).

1995

  1. "The effect of polymer molecular weight and solvent type on the planarization of spin-coated films," J. Electrochem. Soc. 142, 2389 (1995), with M.D. Bullwinkel, J. Gu and G. A. Campbell.

1991

  1. N. Dontula, H. Devanathan, P.C. Sukanek, and G. Campbell, "An Experimental and Theoretical Investigation of Transient Melt Temperature During Injection Molding", Polym. Eng. Sci., 31, 1674.
  2. P.C. Sukanek, "Dependence of Film Thickness on Speed in Spin Coating", J. Electrochem. Soc., 138, 1712.

Clint W. Williford

Profile & Research Interests
Environmental Remediation

2005

  1. Wang, L.K., C.W. Williford, and W.Y. Chen, “Desulfurization and Emission Control,” in “ Handbook of Environmental Engineering, Volume 2. Advanced Air and Noise Pollution Control, ” L.K. Wang, N.C. Pereira, and Y.T. Hung, ed., pp.35-95, Humana Press, New Jersey (2005).

2004

  1. Wang, L.K., C.W. Williford, and W.Y. Chen, “Fabric Filtration,” in “ Handbook of Environmental Engineering, Volume 1. Air Pollution Control Engineering ,” L.K. Wang, N.C. Pereira, and Y.T. Hung, ed., pp.59-95, Humana Press, New Jersey (2004).
  2. Wang, L.K., C.W. Williford, and W.Y. Chen, Condensation,” in “Handbook of Environmental Engineering, Volume 1. Air Pollution Control Engineering ,” L.K. Wang, N.C. Pereira, and Y.T. Hung, ed., pp.307-328, Humana Press, New Jersey (2004).
  3. Wang, L.K., C.W. Williford, and W.Y. Chen, “Flares,” in “Handbook of Environmental Engineering, Volume 1. Air Pollution Control Engineering ,” L.K. Wang, N.C. Pereira, and Y.T. Hung, ed., pp.329-345, Humana Press, New Jersey (2004).

1995

  1. Clint W. Williford and R. Mark Bricka, "Extraction of TNT from Aggregate Soil Fractions," Conference Proceedings, Federal Environmental Restoration '95, published by Hazardous Materials Control Resources Institute, Rockville, MD, Vol.2, pp. 613-620, 1995

1994

  1. C.W. Williford, "Coal Pretreatment Processes to Enhance Conversion," Electric Power Research Institute, Final Report TR-101810, February 1994.

1992

  1. Williford Jr., C.W., Reynolds, W.R., and Quiros, M., "Clinoptilolite Removal of Ammonia from Simulated and Natural Catfish Pond Waters," Applied Clay Science, Vol. 6, pp. 277- 291, 1992

1991

  1. C.W. Williford, Jr. and W. R. Reynolds, "Resistivities of Clinoptilolite, Montmorillonite, and Illite Dispersed Systems in a Simulated Pay Sand", Petroleum Sci. and Engr., 5(2).

Related Links
ChE Research Areas
Theses and Dissertations

.

Engineering Home Questions or comments? CH E Home

Ole Miss Home
Copyright Information

.

Modified: 11 November 2002 by RMP

Valid HTML 4.01!
Validate

16215