Journal Article

  1. Yang Chi-Ta; Wood, B.C.; Bhethanabotla, V.R.; Joseph., B. Study of first step of CO2 photoreduction on subnanometer Pt clusters supported on anatase TiO2 (101) surfaces. In preparation for J. Phys. Chem.
  2. Yang Chi-Ta; Wood, B.C.; Bhethanabotla, V.R.; Joseph. B., Geometry-dependent CO2 adsorption of subnanometer Pt clusters on anatase TiO2 (101) surfaces: Key precursor adsorption for CO2 photoreduction.  In preparation for J. Phys. Chem.
  3. Dutta, D.; Sankaran, R.M.; and Bhethanabotla, V.R. Epitaxial relationships between the growth orientations of InAs nanowires on shaped Au nanoparticles. In preparation for ACS Nano.
  4. Dutta, D., Kuhn, J.N., and Bhethanabotla, V.R. Sulfur tolerance of small-sized biomimetic Fe nanoclusters. In preparation for ACS Catalysis.
  5. Koochakzadeh, S.; Richardson, M.; Sanakaranarayanan, S.K.R.S.; Bhethanabotla, V.R. Microcavity modified surface acoustic wave delay-line based phononic device. In preparation for IEEE-UFFC Transactions.
  6. Morrill, S.; Richardson, M.; Bhethanabotla, V.R. Integration of metal enhanced fluorescence and surface acoustic wave principles for immunofluorescence assays. In preparation for Biosensors and Bioelectronics.
  7. Maiti, D.; Daza, Y.A.; Kuhn, J.A.; Bhethanabotla, V.R. Oxygen vacancy formation and surface terminations of La(1-x)SrxFe(1-y)CoyO(3-δ) perovskite oxides for application in two step thermochemical reduction of carbon dioxioxide. Submitted to Journal of Materials Chemistry A.
  8. Richardson, M.; Morrill, S.A.; Suthar, K.A.; Sankaranarayanan S.K.R.S; Bhethanabotla, V.R. Removal of Non-Specifically Bound Proteins Using Rayleigh Waves Generated on an ST-Quartz Substrate, In revision, Physical Review Applied.
  9. Wong, H.C., Campbell, S.W., Bhethanabotla, V.R., Sorption of benzene, dichloromethane, and 2-butanone by poly(methyl methacrylate), poly(butyl methacrylate) and their copolymers at 323.15 K using a quartz crystal balance, In revision, J. Chem. Eng. Data.
  10. Yang, C.-T.; Wood, B. C.; Bhethanabotla, V. R.; Joseph, B., The effect of the morphology of supported subnanometer Pt clusters on the first and key step of CO2 photoreduction. Phys. Chem. Chem. Phys. 2015, 17 (38), 25379-25392.
  11. Yaghoubi, H.; Li, Z.; Chen, Y.; Ngo, H. T.; Bhethanabotla, V. R.; Joseph, B.; Ma, S.; Schlaf, R.; Takshi, A., Toward a visible light-driven photocatalyst: The effect of midgap-states-induced energy gap of undoped TiO2 nanoparticles. ACS Catalysis 2015, 5 (1), 327-335.
  12. Richardson, M.; Sankaranarayanan, S. K. R. S.; Bhethanabotla, V. R., Low insertion loss and highly sensitive SH-SAW sensors based on 360 YX LiTaO3 through the incorporation of filled microcavities. IEEE. Sensors J. 2015, 15 (2), 787-796.
  13. Richardson, M.; Cheemalapati, S.; Everly, R.; Sankaranarayanan, S. K. R. S.; Pyayt, A.; Bhethanabotla, V. R., Design and fabrication of a SAW device with Ta filled microcavities inserted into its delay path to improve power transfer. J. Vac. Sci. & Tech. 2015, 33 (2), 022001/1-022001/8.
  14. Daza, Y. A.; Maiti, D.; Kent, R. A.; Bhethanabotla, V. R.; Kuhn, J. N., Isothermal reverse water gas shift chemical looping on La0.75Sr0.25Co(1-Y)FeYO3 perovskite-type oxides. Catal. Today 2015, 258 (Part_2), 691-698.
  15. Daza, Y. A.; Maiti, D.; Hare, B. J.; Bhethanabotla, V. R.; Kuhn, J. N., More Cu, more problems: Decreased CO2 conversion ability by Cu-doped La0.75Sr0.25FeO3 perovskite oxides. Surf. Sci. 2015, Ahead of Print.
  16. Conners, C. M.; Bhethanabotla, V. R.; Gupta, V. K., Concentration-dependent effects of alendronate and pamidronate functionalized gold nanoparticles on osteoclast and osteoblast viability. J. Biomed. Mater. Res., Part B 2015, Ahead of Print.
  17. Yang, C.-T.; Wood, B.; Bhethanabotla, V. R.; Joseph, B., CO2 adsorption on anatase TiO2 surfaces in the presence of subnanometer Ag/Pt clusters: Implications for CO2 photoreduction. J. Phys. Chem 2014, 1118(45), 26236-26248.
  18. Yang, C.-T.; Balakrishnanan, N.; Bhethanabotla, V. R.; Joseph, B., Interplay between subnanometer Ag and Pt clusters and anatase TiO2 (101) surface: Implications for catalysis and photocatalysis. J. Phys. Chem 2014, 118(9), 4702-4714.
  19. Richardson, M.; Sankaranarayanan, S. K. R. S.; Bhethanabotla, V. R., Shear-horizontal surface acoustic wave phonic device with high density filling material for ultra-low power sensing applications. Applied Physics Letters 2014, 104(25), 253501/1-253501/5.
  20. Dutta, D.; Sankaran, R. M.; Bhethanabotla, V. R., Predicting the chiral enrichment of metallic SWCNTs on Ni-Cu bimetallic surfaces. Chemistry of Materials 2014, 26(17), 4943-4950.
  21. Balakrishnan, N.; Joseph, B.; Bhethanabotla, V. R., Effect of Pt and Ru promoters on deactivation of Co catalysts by C deposition during Fischer-Tropsch synthesis: A DFT study. Applied Catalysis A: General 2013, 462-463, 107-115.
  22. Balakrishnan, N.; Joseph, B.; Bhethananbotla, V. R., Effect of platinum promoters on the removal of O from the surface of cobalt catalysts: A DFT study. Surface Science 2012 606 (5-6), 634-643.
  23. Villalba, P.; Ram, M. K.; Gomez, H.; Bhethanabotla, V. R.; Helms, M. N.; Kumar, A.; Kumar, A., Cellular and in-vitro toxicity of nanodiamond-polyanaline composites in mammalian and bacterial cells. Materials Science Engineering, C: Materials for Biological Applications 2012, 32 (3), 594-598.
  24. Khoe, C.; Sen, R.; Bhethanabotla, V. R., Oxygen permeability of FRP-concrete repair systems. J. Composites for Construction 2012, 16 (3), 277-285.
  25. Dutta, D.; Chiang, W.-H.; Sankaran, R. M.; Bhethanabotla, V. R., Epitaxial nucleation model for chiral-selective growth of single-walled carbon nanotubes on bimetallic catalyst surfaces. Carbon 2012, 50(10), 3776-3773.
  26. Wong, H. C.; Campbell, S. W.; Bhethanabotla, V. R., Sorption of benzene, dichloromethane, n-propyl acetate, and 2-butanone by poly(methyl methacrylate), poly(ethyl methacrylate) adn their copolymers at 323.15 K using a quartz crystal microbalance. J. Chem. & Eng. Data 2011, 56 (12), 4772-4777.
  27. Villalba, P.; Ram, M. K.; Gomez, H.; Kumar, A.; Bhethanabotla, V. R.; Kumar, A., GOX-functionalized nanodiamond films for electrochemical biosensor. Materials Science & Engineering, C: Materials for Biological Applications 2011, 31 (5), 1115-1120.
  28. Uygun, A.; Myjavcova, R.; Yavuz, A.; Ruppel, J. V.; Fields, K. B.; Franskhauser, A.; Zhang, X. P.; Bhethanabotla, V. R.; Bednar, P., Electrochemical Polymerization and investigatoin of properties of poly(5-(4'-aminophenylamino)-10,20-diphenylporphyrin). Electroanalysis 2011, 23(5), 1158-1167.
  29. Khoe, C.; Sen, R.; Bhethanabotla, V. R., Oxygen permeability of fiber-reinforced polymers. J. Composites for Construction 2011, 15 (4), 513-521.
  30. Fanord, F.; Fairbairn, K.; Kim, H.; Garces, A.; Bhethanabotla, V. R.; Gupta, V. K., Bisphosphosphonate-modified gold nanoparticles: a useful vehicle to study the treatment of osteonecrosis of the femoral head. Nanotechnology 2011, 22 (3), 035102/1-035102/11.
  31. Chowdhury, S.; Bhethanabotla, V. R.; Sen, R., Quenching of fluorescence from CdSe/ZnS nanocrystal QDs near copper nanoparticles in aqueous solution. Plasmonics 2011, 6 (4), 735-740.
  32. Yavuz, A.; Uygun, A.; Bhethanabotla, V. R., Preparation of substituted polyaniline/chitosan composites by in-situ electropolymermzation and their appplication to glucose sensing. Carbohydrate Polymers 2010, 81 (3), 712-719.
  33. Uygun, A.; Oksuz, L.; Chowdhury, S.; Bhethanabotla, V., Fluorescence study of protein immobilization on poly(4-hydroxyphenyl thiophene-3carboxylate)-cotaed electrodes. Materials Science Engineering, C: Materials for Biological Applications 2010, 30 (6), 868-872.
  34. Singh, R.; S.K.R.S., S.; Bhethanabotla, V. R., Enhancement of acoustic streaming induced flow on a focused surface acoustic wave device: Implications for biosensing and microfluidics. Journal of Applied Physics 2010, 107 (2), 024503/1-024503/9.
  35. Sankaranarayanan, S. K. R. S.; Singh, R.; Bhethanabotla, V. R., Acoustic streaming induced elimination of nonspecifically bound proteins from a surface acoustic wave biosensor: Mechanism prediction using fluid-structure interaction models. Journal of Applied Physics 2010, 108 (10), 104507/1-104507/11.
  36. Khoe, C.; Chowdhury, S.; Bhethananbotla, V.; Sen, R., Measurement of oxygen permeability of epoxy polymers. ACI Materials Journal 2010, 107 (2), 138-146.
  37. Chowdhury, S.; Bhethanabotla, V. R.; Sen, R., Measurement of oxygen diffusivity and permeability in polymers using fluorescence microscopy. Microscopy and Microanalysis 2010, 16 (6), 725-734.
  38. Choudhury, P.; Bhethanabotla, V. R.; Stefanakos, E., First principles study to identify the reversible reaction step of a multinary hydrogen storage Li-Mg-B-N-H system. International Journal of Hydrogen Energy 2010, 35 (17), 9002-9011.
  39. Yavuz, A.; Uygun, A.; Bhethanabotla, V. R., Substituted polyaniline/chitosan composites: synthesis and characterization. Carbohydrate Polymers 2009, 75 (3), 448-453.
  40. Singh, R.; Sankaranarayanan, S. K. R. S.; Bhethanabotla, V. R., Enhanced SAW biosensor performance via delay path modifications in mutually interacting multidirectional transducer configuration: a computational study. Applied Physics Letters 2009, 95 (3), 0341011-0341013.
  41. Singh, R.; Sankaranarayanan, S. K. R. S.; Bhethanabotla, V. R., Orthogonal surface acoustic wave device based on langasite for simultaneous biosensing and biofouling removal. Applied Physics Letters 2009, 94 (26), 2635031-2635033.
  42. Sankaranarayanan, S. K. R. S.; Bhethanabotla, V. R., Finite-element modeling of a hexagonal surface acoustic wave device based on LiNbO3 substrate. IEEE Sensors J 2009, 9 (4), 329-339.
  43. Sankaranarayanan, S. K. R. S.; Bhethanabotla, V. R., Numerical analysis of wave generation and propagation in focused surface acoustic wave devices for potential microfluidic applications. IEEE Trans. Ultrason. Ferroelect. Freq. Contr. 2009, 56 (3), 631-643.
  44. Richardson, A.; Bhethanabotla, V. R.; Smith, A. L.; Josse, F., Paterned electrodes for thickness shear mode resonators to achieve uniform mass sensitivity distribution. IEEE Sensor J 2009, 9 (12), 1772-1777.
  45. Chowdhury, S.; Bhethanabotla, V. R.; Sen, R., Effect of Ag-Cu alloy nanoparticle composition on luminescence enhancement/quenching J. Phys. Chem. C 2009, 113 (30), 13026-13022.
  46. Chowdhury, S.; Bhethanabotla, V. R.; Sen, R., Silver-copper alloy nanoparticles for metal enhanced luminescence. Applied Physics Letters 2009, 95 (13), 1311151-1311153.
  47. Choudhury, P.; Srinivasan, S. S.; Bhethanabotla, V. R.; Goswami, Y.; McGrath, K.; Stefanakos, E. K., Nano-Ni doped Li-Mn-B-H system as a new hydrogen storage candidate. International Journal of Hydrogen Energy 2009, 34 (15), 6325-6334.
  48. Choudhury, P.; Bhethanabotla, V. R.; Stefanakos, E., Manganese borohydride as a hydrogen storage candidate: First-principles crystal structure and thermodynamic properties. J. Phys. Chem. C 2009, 113 (30), 13416-13424.
  49. Sankaranarayanan, S. K. R. S.; Cular, S.; Bhethanabotla, V. R.; Joseph, B., Flow induced by acoustic streaming on surface acoustic wave devices and its application in biofouling removal: a computational study and comparison to experiment. Physical Review E 2008, 77, 066308/1-19.
  50. Sankaranarayanan, S. K. R. S.; Bhethanabotla, V. R., Design of efficient focused surface acoustic wave devices for potential microfluidic applications. J. Appl. Phys. 2008, 103, 064518/1.
  51. Sankaranarayanan, K. R. S. S.; Cular, S.; Bhethanabotla, V. R., High frequency surface acoustic wave devices based on multilayered LiNbO3/diamond/AlN substrates: a finite element study. ECS Transactions 2008, 13 (25), 1-12.
  52. Cular, S.; Sankaranarayanan, S. K. R. S.; Bhethanabotla, V. R., Finite element model simulation of microcavity enhanced sensing by a shear horizontal surfacec acoustic wave transducer. Applied Physics Letters 2008, 92 (24), 244104/1-3.
  53. Cular , S.; Branch, D. W.; Bhethanabotla, V. R.; Meyer, G. D.; Craighead, H. G., Removal of nonspecifically bound proteins on microsensors using surface acoustic waves IEEE Sensors J. 2008, 8 (3), 314-320.
  54. Choudhury, P.; Bhethanabotla, V. R.; Stefanakos, E., Ni induced destabilization dynamics of crystalline zinc borohydride. Applied Physics Letters 2008, 92, 134101.
  55. Choudhury, P.; Bhethanabotla, V. R.; Stefanakos, E., Identification of a new stable phase for high capacity hydrogen storage material Zn(BH4)2 from density functional theory and lattice dynamics Phys. Rev. B 2008, 77, 134302.
  56. Williams, R. D.; Upadhyayula, A. K.; Bhethanabotla, V. R., High frequency thickness shear mode devices for organic vapor sensing. Sens. Actuators. B 2007, 122, 635.
  57. Sankaranarayanan, S. K. R. S.; Bhethanabotla, V. R.; Joseph, B., Molecular dynamics simulation study of temperature and strain rate effects on the elastic properties of bimetallic Pd-Pt nanowires Physical Review B 2007, 76(13), 134117/1-134117/13.
  58. Sankaranarayanan, S. K. R. S.; Bhethanabotla, V. R.; Joseph, B., Molecular dynamics simulation study of phase transformations in transition bimetallic nanowires. J. Phys. Chem. C 2007, 111, 2430.
  59. Sankaranarayanan, S. K. R. S., Bhethanabotla, V. R., Joseph, B., Molecular dynamics simulation study of the melting and structural evolution of bimetallic Pd-Pt nanowires Physical Review B. 2006, 74 (15), 155441/1-155441/12.
  60. Sambandam, S. N.; Bhansali, S.; Bhethanabotla, V. R.; Sood, D. K., Studies on sputering process of multicomponent Zr-Ti-Cu-Ni-Be alloy thin films. Vacuum 2006, 80(5), 406-414.
  61. Miao, L.; Bhethanabotla, V. R.; Joseph, B., Interactions of hydrogen with Pd and Pd/Ni alloy chain-functionalized single walled carbon nanotubes from density functional theory. Journal of Physical Chemistry B 2006, 110(45), 22415-22425.
  62. Sankaranarayanan, S. K. R. S.; Bhethanabotla, V. R.; Joseph, B., Molecular dynamics simulation study of the melting of Pd-Pt nanoclusters Physical Review B. 2005, 71 (19), 195415/1-195415/15.
  63. Sankaranarayanan, S. K. R. S.; Bhethanabotla, V. R.; Joseph, B., Molecular dynamics simulations of the structural and dynamic properties of graphite-supported bimetallic transition metal clusters Physical Review B. 2005, 72 (19), 195405/1-195405/15.
  64. Miao, L.; Bhethanabotla, V. R.; Joseph, B., Melting of Pd clusters and nanowires: A comparison study using molecular dynamics simulation. Physical Review B 2005, 72(3), 134109/1-134109/12.
  65. Poor, N. D.; Tremblay, R.; Kay, H.; Bhethanabotla, V. R.; Swartz, E.; Luther, M.; Campbell, S. W., Atmospheric concentations and dry deposition rates of polycyclic aromatic hydrocarbons (PAHs) for Tampa Bay, Florida, USA. Atmospheric Environment 2004, 38 (35), 6005-6015.
  66. Pathere, S.; Bhethanabotla, V. R.; Campbell, S. W., Total vapor pressure measurements for 2-ethoxyethanol with carbon tetrachloride, chloroform, and dichloromethane at 303.15 K. J. Chem. Eng. Data 2004, 49 (3), 510-513.
  67. Evans, M. W.; Campbell, S. W.; Bhethanabotla, V. R.; Poor, N. D., Effect of sea salt and calcium carbonate interactions with nitric acid on the direct dry deposition of nitrogen to Tampa Bay, Florida. Atmospheric Environment 2004, 38 (29), 4847-4858.
  68. Alderson, N.; Bhethanabotla, V. R.; Campbell, S. W., Total vapor pressure measurements for 2-ethoxyethanol with methyl acetate, ethyl acetate, propyl acetate and ethyl propionate at 313.15 K and for 2-ethoxyethanol with methyl formate at 308.15 K. J. Chem. Eng. Data 2003, 48 (1), 92-96.
  69. DeBord, A. M.; Bhethanabotla, V. R.; Campbell, S. W., Total vapor pressure measurements for 2-ethoxyethanol with methanol, ethanol, 1-propanol, and 2-propanol at 13.15 K. J. Chem. Eng. Data 2002, 47 (6), 1355-1358.
  70. Wong, H. C.; Campbell, S. W.; Bhethanabotla, V. R., Sorption of benzene, tetrahydrofuran and 2-butanone by poly(vinyl acetate) at 323.15 K using a quartz crystal balance. Fluid Phase Equilibria 2001, 179 (1-2), 181-191.
  71. Rhodes, J. M.; Griffin, T. A.; Lazzaroni, M. J.; Bhethanabotla, V. R.; Campbell, S. W., Total pressure measurements for benzene with 1-propanol, 2-propanol, 1-pentanol, 3-pentanol, and 2-methyl-2-butanol at 313.15 K. Fluid Phase Equilibria 2001, 179 (1-2), 217-229.
  72. Gonzalez, J. A.; Cobos, J. C.; Carmona, F. J.; De La Fuente, I. G.; Bhethanabotla, V. R.; Campbell, S. W., Thermodynamics of mixtures containing alkoxyethanols. Part XV. DISQUAC characterization of systems of alkoxyethanols with n-alkanes or cyclohexane. Physical Chemistry Chemical Physics 2001, 3 (14), 2856-2865.
  73. Carmona, J. F.; Bhethanabotla, V. R.; Campbell, S. W.; Gonzalez, A. J.; de la Fuente, I. G.; Cobos, J. C., Thermodynamic properties of (n-alkoxyethanols + organic solvents). XII. Total vapour pressure measurements for (n-hexane, n-heptane or cyclohexane + 2-methoxyethanol) at different temperatures. J. Chem. Thermodynamics 2001, 33 (1), 47-59.
  74. Carmona, J. F.; Gonzalez, J. A.; de la Fuente, I. G.; Cobos, J. C.; Bhethanabotla, V. R.; Campbell, S. W., Thermodynamic properties of n-alkoxyethanols + organic solvent mixtures. XI. Total vapor pressure measurements for n-hexane, cyclohexane or n-heptane + 2-ethoxyethanol at 303.15 and 323.15 K. J. Chem. Eng. Data 2000, 45 (4), 699-703.
  75. Huang, S.-L.; Bhethanabotla, V. R., Virial coefficients for the hard Gaussian overlap model. Int. J. of Modern Physics C. 1999, 10, 361-374.
  76. Grate, J. W.; Kaganove, S. N.; Bhethanabotla, V. R., Comparisons of polymer/gas partition coefficients calcualted from responses of thickness shear mode and surface acoustic wave vapor sensors. Analytical Chemistry 1998, 70 (1), 199-203.
  77. Wong, H. C.; Campbell, S. W.; Bhethanabotla, V. R., Sorption of benzene, toluene and chloroform by poly(styrene) at 298.15 K and 323.15 K using a quartz crystal balance. Fluid Phase Equilibria 1997, 139 (1-2), 371-389.
  78. Rhodes, J. M.; Bhethanabotla, V. R.; Campbell, S. W., Total pressure measurements for heptane + 1-pentanol, + 2-pentanol, + 3-pentanol, +2-methyl-1-butanol, + 2-methyl-2-butanol, + 3-methyl-1-butanol, and + 3-methyl-2-butanol at 313.15 K. J. Chem. Eng. Data 1997, 42 (4), 731-734.
  79. Mara, K.; Bhethanabotla, V. R.; Campbell, S. W., Total pressure measurements for 1-propanol + 1-pentanol, 1-propanol + 2-pentanol, 2-propanol = 1-pentanol, and 2-propanol + 2-pentanol at 313.15 K. Fluid Phase Equilibria 1997, 127 (1-2), 147-153.
  80. Grate, J. W.; Kaganove, S. N.; Bhethanabotla, V. R. In Examination of mass and modulus contributions to surface acoustic wave vapor sensor responses using partition coefficients, The Royal Society of Chemistry, Faraday Discussion on the Interactions of Acoustic Waves with Thin Films and Interfaces, University of Leicester, U.K, September; University of Leicester, U.K, 1997; pp 259-283.
  81. Campbell, S. W.; Bhethanabotla, V. R., Rapid determination of vapor-liquid equilibria - an undergraduate laboratory exercise. Chemical Engineering Education 1997, 31 (1), 34-39.
  82. Barton, D. P.; Bhethanabotla, V. R.; Campbell, S. W., Binary total pressure measurements for methanol with 1-pentanol, 2-pentanol, 3-pentanol, 2-methyl-1-butanol, 2-methyl-2-butanol, -methyl-1-butanol, and 3-methyl-2-butanol at 313.15 K. J. Chem. Eng. Data 1996, 41 (5), 1138-1140.
  83. Camero, C. G.; Bhethanabotla, V. R.; Campbell, S. W., Total pressure measurements for chloroform + acetone + 2-butanone at 303.15 K. J. Chem. Eng. Data 1995, 40 (1), 210-213.
  84. Hopkins, J. A.; Bhethanabotla, V. R.; Campbell, S. W., Total pressure measurements for chloform + acetone + toluene at 313.15 K. J. Chem. Eng. Data 1994, 39 (3), 488-492.
  85. Pradhan, A. G.; Bhethanabotla, V. R.; Campbell, S. W., Vapor-liquid equilibrium data for ethanol-n-heptane-1-propanol and ethanol-n-heptane-2-propanol and their interpretation by a simple association model. Fluid Phase Equilibria 1993, 84, 183-206.
  86. Marquez, E.; Bhethanabotla, V. R.; Garcia-Rubio, L. H., Conformational effects on the absorption spectra of macromolecules. Macromolecules 1993, 26 (3), 479-484.
  87. Reimers, J. L.; Bhethanabotla, V. R.; Campbell, S. W., Total pressure measurements for pentane + methanol + ethanol at 303.15K. J. Chem. Eng. Data 1992, 37 (1), 127-130.
  88. Thomas, S.; Bhethanabotla, V. R.; Campbell, S. W., Total pressure measurements for n-pentane-methanol-2-butanol at 303.15 K. J. Chem. Eng. Data 1991, 36 (4), 374-378.
  89. Bhethanabotla, V. R.; Campbell, S. W., P-x measurements for ethanol-n-heptane-isobutanol at 303.15 K. Fluid Phase Equilibria 1991, 62 (3), 239-258.
  90. Bhethanabotla, V. R.; Steele, W. A., Computer simulation study of melting in dense oxygen layers on graphite. Physical Review B. 1990, 41 (13-B), 9480-9487.
  91. Bhethanabotla, V. R.; Steele, W. A., Computer simulations of monolayer and bilayer nitrogen fioms at low temperature. Journal of Chemical Physics 1989, 91 (7), 4346-4352.
  92. Bhethanabotla, V. R.; Steele, W. A., Triplet correlation functions for fluids of nonspherical molecules. Molecular Physics 1989, 68 (3), 659-669.
  93. Bhethanabotla, V. R.; Steele, W. A., Simulations of oxygen adsorbed on graphite at 45 K:  The monolayer to bilayer transition. Canadian Journal of Chemistry 1988, 66 (4), 866-874.
  94. Bhethanabotla, V. R.; Steele, W. A., Simulations of the thermodynamic properties of krypton adsorbed on graphite at 100 K. Journal of Physical Chemistry 1988, 92 (11), 3285-3291.
  95. Bhethanabotla, V. R.; Steele, W. A., A comparison of hard-dody models for axially-symmetric molecules. Molecular Physics 1987, 60 (1), 249-251.
  96. Bhethanabotla, V. R.; Steele, W. A., Molecular dynamics simulations of oxygen monolayers on graphite. Langmuir 1987, 3 (4), 581-587.

Books, Sections and Chapters

  1. Dutta, D., Chowdhury, S., Yang, Chi-ta, Bhethabotla, V.R., Joseph, B., Controlling metal enhanced fluorescence using bimetallic nanoparticles. In Surface Plasmon Enhanced, Coupled and Controlled Fluorescence, C. Geddes, Ed., Wiley (to be published).
  2. Sankaranarayanan, K. R. S. S., Bhethanabotla, V.R., and Joseph, B., Acoustic wave sensor response, modeling and sensor design. In Sensors for Chemical and Biological Applications, Ram, M. K., and Bhethanabotla, V. R., Ed. Taylor and Francis, CRC Press: Boca Raton, Florida, 2010.
  3. Ram, M. K., Bhethanabotla, V. R., Sensors for Chemical and Biological Applications. Taylor and Francis, CRC Press: Boca Raton, 2010.
  4. Bhethanabotla, V. R., Chapter 8: Viscosity in. In Manual for Predicting Chemical Process Design Data, First ed.; American Institute of Chemical Engineers: New York, 1987.

Patents

  1. Bazard, P., Frisina, R.D., Walton, J.P, Bhethanabotla, V.R. Plasmonic stimulation of electrically excitable biological cells. Patent application submitted. 2015.
  2. Richardson, M., Bhethanabotla, V.R.  Orthogonal SAW transducers on ST-quartz for simultaneous biofouling removal and biosensing. Patent application submitted. 2015.
  3. Morrill, S.A., Richardson, M., Bhethanabotla, V.R. Metal-enhanced fluorescence-surface acoustic wave (MEF-SAW) biosensor. Patent application submitted. 2015.
  4. Rigaud, E., Davis, G., Illig, K., Frisina, R.D., Bhethanabotla, V.R. Novel torque device for vascular surgery. Patent application submitted. 2015.
  5. Kuhn, J., Daza, Y., Bhethanabotla, V.R., Dutta, D. Systems and methods for converting carbon dioxide into chemical feedstock, US 8999283, 2015.
  6. Bhethanabotla, V. R.; Chowdhury, S. Alloy nanoparticles for metal enhanced luminescence. US 9005890, 2015.
  7. Cular, S., Bhethanabotla. V.R. Microcavity enhanced surface acoustic wave devices. US 8089196 B1 20120103, 2012.
  8. Smith, A.; Bhethanabotla, V. R.; Richardson, A. Uniform mass sensitivity distribution on thickness shear mode resonators. US 8,215,171B1, 2012.
  9. Cular, S., Bhethanabotla. V.R., Branch, D.W. Simultaneous sample manipulation and sensing device using surface acoustic waves. US 7878063 B1 20110201, 2011.
  10. Bhethanabotla, V. R., and Williams, R.D. High frequency thickness shear mode acoustic wave sensors for gas and organic vapor sensing and detection (USA). US20090151428, 2009.
  11. Bhethanabotla, V. R., and Bhansali, S. Surface acoustic wave hydrogen sensor (USA); (Licensed in 2007). US7047792, 2006.

Conference Proceedings, Abstracts and Seminars

There are 287 conference abstracts, with several written up as conference proceedings.  These proceedings are reviewed at various levels of rigor, with some reviewed somewhat reasonably (ACS, ECS, MRS, IEEE-UFFC and IEEE-Sensors) and others not particularly (AIChE).