Surface Composites Synthesized through the Incorporation of Atomic Layer Deposited AlOx into Nanoporous Fuzzy Tungsten,link, L Cheng, M Patino, MJ Baldwin, PR Bandaru, ACS Applied Materials & Interfaces (2024)
Toward the Ultimate Limit of Analyte Detection, in Graphene-Based Field-Effect Transistors, linkAW Lee, Y Dong, S Natani, DK Ban, PR Bandaru, Nano Letters , 24 (4), 1214, (2024)
In the News
Modulation of the electrokinetic streaming potential, as a function of the zeta potential and fluid slip, link P He, L Cheng, P Bandaru, Chemical Physics Letters, vol.834, p. 140986, (2024)
Complementary carbon nanotube metal–oxide–semiconductor field-effect transistors with localized solid-state extension doping, link Z Zhang, et al, Nature Electronics, vol. 6 (12), p. 999, (2023)
Pinching and Probing of Polygonal Grain Boundaries, link N Sarkar, PR Bandaru, RC Dynes, arXiv preprint arXiv:2311.16376, (2023)
Band-to-Band Tunneling Leakage Current Characterization and Projection in Carbon Nanotube Transistors, link Q Lin, et al, ACS nano , vol. 17 (21), 21083, (2023).
Ultrathin Gate Dielectric Enabled by Nanofog Aluminum Oxide on Monolayer MoS2 , JS Ko, et al,
ESSDERC 2023-IEEE 53rd European Solid-State Device Research Conference , (2023).
Ko and Zhang Nanofog MOS2 ESSDERC 2023
Investigation of the Influence of Nanoscale Porosity in the Interfacial Layers on the Mechanical Properties of Helium Plasma-Exposed Tungsten, link L Cheng, M Patino, RJ Chambers, S Cai, M Baldwin, P Bandaru, ACS Applied Engineering Materials , vol. 1 (7), 1822, (2023)
Modeling electronic conduction in quantum dot constituted assemblies coupled to metallic electrodes, link
K Eshraghi, S Natani, PR Bandaru, Applied Physics Letters, vol. 122 (2023).
Graphene and Two-Dimensional Materials for Biomolecule Sensing, link DK Ban, PR Bandaru,
Annual Review of Biophysics, vol. 52, pp. 487-507, (2023)
Characteristic nanoscale deformation on a large-area coherent graphite moiré pattern, link N Sarkar, PR Bandaru, RC Dynes, Physical Review B , vol. 107 (16), L161402 (2023).
On-chip unidirectional waveguiding for surface acoustic waves along a defect line in a triangular lattice, Y. Zhou, et al, Physical Review: Applied (2023) link
Femtomolar Level-Specific Detection of Lead Ions in Aqueous Environments, Using Aptamer-Derivatized Graphene Field-Effect Transistors. Y. Dong, et al, ACS Applied Nanomaterials (2023) link
Probing interlayer van der Waals strengths of two-dimensional surfaces and defects, through STM tip-induced elastic deformations. N. Sarkar, et al Nanotechnology, vol. 34, 15LT01, (2023)link
The Modulation of Electrokinetic Streaming Potentials of Silicon-Based Surfaces through Plasma-Based Surface Processing, Cheng, et al, Langmuir, vol. 38, p. 11837, (2022) link
Topologically protected edge states in triangular lattices, Davis, et al, Physical Review B, vol. 108, p. 165403, (2022) link
Rapid self-test of unprocessed viruses of SARS-CoV-2 and its variants in saliva by portable wireless graphene biosensor, Ban, et al, Proceedings of the National Academy of Sciences: PNAS, vol. 119, e2206521119, (2022)link
Enhanced graphene surface plasmonics through incorporation into metallic nanostructures, Y. Dong & P.R. Bandaru, Optics Express, vol. 30, p. 30696, (2022) link
Remote Oxygen Scavenging of the Interfacial Oxide Layer in Ferroelectric Hafnium–Zirconium Oxide-Based Metal–Oxide–Semiconductor Structures, Tasneem, et al, ACS Applied Materials and Interfaces, vol. 14, p. 43897, (2022) link
Component wise contribution to total thermal resistance in 2D material based device stacks, R. Galib & P.R. Bandaru, International Journal of Thermal Sciences, vol. 179, p. 107623, (2022) link
Sub-Nanometer Interfacial Oxides on Highly Oriented Pyrolytic Graphite and Carbon Nanotubes Enabled by Lateral Oxide Growth. Z. Zhang, et al, ACS Applied Materials & Interfaces , (2022) link
Bandgap Extraction at 10 K to Enable Leakage Control in Carbon Nanotube MOSFETs
Q. Lin, et al, IEEE Electron Device Letters, (2022) doi: 10.1109/LED.2022.3141692
A Poisson‐Nernst‐Planck Model of Ion Transport and Interface Segregation in Metal‐Insulator‐Semiconductor Structures and Solar Cells, E. Martinez-Loran, et al., Physica Status Solidi, https://doi.org/10.1002/pssb.202100514, (2022)
Photonic Topological Insulators: A Beginner’s Introduction [Electromagnetic Perspectives], D. Bisharat, R. Davis, Y. Zhou, P.R. Bandaru & D. Sievenpiper, IEEE Antennas and Propagation, vol. 63, p. 112 (2021), pdf
Short-Channel Double-Gate FETs with Atomically Precise Graphene Nanoribbons, Z. Mutlu, et al, 2021 IEEE International Electron Devices Meeting (IEDM), (2021) link
Advances in Metasurfaces: Topology, Chirality, Patterning, and Time Modulation., S. Singh, R.J. Davis, D. Bisharat, J. Lee, S.M. Kandil, E. Wen, X. Yang, Y. Zhou, P.R. Bandaru, D.F. Sievenpiper IEEE Antennas and Propagation, (2021) doi: 10.1109/MAP.2021.3127541
Finite Element Simulation of Potential-Induced Degradation Kinetics in p-Type Silicon Solar Modules, E. Martinez-Loran, G Von Gastrow, J. Clenney, R. Meier, P.R. Bandaru, M.I.Bertoni, & D.P.Fenning, IEEE Journal of Photovoltaics, vol. 12, p. 45, (2021)
Enhancement of photoelectron emission efficiency from quantum dot solids, through electrical field biasing of interfaces, K. Eshraghi & P.R. Bandaru, Applied Physics Letters, https://doi.org/10.1063/5.0052593, (2021)
Influence of Surface Texture on the Variation of Electrokinetic Streaming Potentials, L. Cheng, B. Fan, Z. Zhang, & P.R. Bandaru, Langmuir, vol. 21, p. 6736, (2021) pdf
Photonic Topological Insulators, Bisharat, D.J., Davis R., Zhou, Y., Bandaru, P.R. and Sievenpiper, D.F. IEEE Antennas & Propagation Magazine, vo. 63 (3), p. 112, (2021)pdf
Sub-0.5 nm interfacial dielectric enables superior electrostatics: 65 mV/dec top-gated carbon nanotube FETs at 15 nm gate length, G. Pitner, et al, International Electron Devices Meeting (IEDM) (2021) pdf
Confining and channeling sound through coupled resonators, Y. Zhou, D. Sievenpiper & P.R. Bandaru, Journal of Applied Physics, vol. 129, p. 095103 (2021) pdf
Recent Advances in Thermal metamaterials and their future applications for electronic packaging, J. C. Kim, et al, Journal of Electronic Packaging, vol. 143(1), 010801, (2021)
Possibility of obtaining two orders of magnitude larger electrokinetic streaming potentials, through liquid infiltrated surfaces, B. Fan & P.R. Bandaru, Langmuir, vol. 36(34), 10238, (2020). pdf
Direct DNA methylation profiling with electric biosensor, D.K. Ban, et al, ACS Nano, vol. 14(6), p. 6743, (2020).
Enhanced Dynamic Charging Characteristics through Nanoscale Fuzzy Tungsten Surfaces, P. Chen, J. Sigurdson, M. Baldwin, & P.R. Bandaru, Journal of the Electrochemical Society, vol. 167 (11), p. 116515 (2020) link
Quantification of Sodium‐Ion Migration in Silicon Nitride by Flatband‐Potential Monitoring at Device‐Operating Temperatures, Physica Status Solidi (A), vol. 217 (16), (2020). link
Iron redox pathway revealed in ferritin via electron transfer analysis,
P. Chen, E. De Meulenaere, D. D. Deheyn & P. R. Bandaru, Scientific Reports, vol. 10, Article number: 4033 (2020) link
Interaction and hybridization of orthogonal Fabry-Pérot like surface plasmon modes in metal-dielectric grating structures, Y Dong, and P.R. Bandaru, Optics Express, 28 (3), 3541-3551, (2020) pdf
Acoustic wave confinement by chiral waveguide made of Helmholtz resonators, Y.Zhou, P.R. Bandaru, and D.F. Sievenpiper, The Journal of the Acoustical Society of America, vol. 146 (4), p.2786, (2019)
Tensorial Modulation of Electrokinetic Streaming Potentials on Air and Liquid Filled Surfaces, B. Fan and P.R. Bandaru, Langmuir, vol. 35 (46), p. 14812-14817, (2019) link
Modulation of the Streaming Potential and Slip Characteristics in Electrolyte Flow over Liquid-Filled Surfaces, B. Fan and P.R. Bandaru, Langmuir, vol.35 (18), p.6203-6210 (2019) pdf
Enhanced voltage generation through electrolyte flow on liquid-filled surfaces,link
B. Fan, A. Bhattacharya, P.R. Bandaru, Nature Communications, vol. 9 (1), 4050, (2018)
Press Coverage:
Popular Mechanics, Science News for Students, Materials Today, R & D , Headline & Global News,ScienceDaily, Nanowerk, Phys.org, , Innovation Toronto,Solarify, Water Security,EurekAlert,American Laboratory,The Virginia Engineer,New Electronics, etc.
Emergence of Novel Multipactor Modes Under Standing Wave Conditions in a Coaxial Line With an RF Window, T.W. Hall, P.R. Bandaru, and D Rees, IEEE Transactions on Plasma Science, vol. 47 (3), p. 1526-1533, (2019) link
Electron tunneling in nanoscale electrodes for battery applications,link, H.Yamada, R. Narayanan, P.R. Bandaru, Chemical Physics Letters, vol. 695, 24, (2018)
Enhanced Environmental Stability Coupled with a 12.5% Power Conversion Efficiency in an Aluminum Oxide-Encapsulated n-Graphene/p-Silicon Solar Cell,link S. Yavuz, E.M. Loran, N.Sarkar, D.P. Fenning, and P.R. Bandaru, ACS applied materials & interfaces, vol. 10 (43), 37181, (2018)
Quantum-spin-Hall topological insulator in a spring-mass system, Y. Zhou, P.R. Bandaru, and D.F. Sievenpiper, New Journal of Physics, vol. 20 (12), 123011, (2018)pdf
Enhanced Solar Thermal Evaporation of Ethanol–Water Mixtures, through the Use of Porous Media, link F.M. Canbazoglu, B.Fan, K.Vemuri, P.R. Bandaru, Langmuir,vol. 34 (36), 10523, (2018)
Light induced reversible and irreversible mechanical responses in nanotube-polymer composites, link, X. Liang, Z Zhang, A. Satisha, S. Cai, and P.R. Bandaru, Composites B, vol. 134, p.39, (2018)
Anisotropy in the hydrophobic and oleophilic characteristics of patterned surfaces,link
B.Fan, P.R. Bandaru, Applied Physics Letters, vol. 111 (26), 261603, (2017)
Hierarchically structured, oxygen deficient, tungsten oxide morphologies for enhanced photoelectrochemical charge transfer and stability,link, P. Chen, M. Baldwin, and P.R. Bandaru, Journal of Materials Chemistry A, vol. 5, 14898-14905, (2017)
Dimensionality-Dependent Electrochemical Kinetics at the Single-Layer Graphene–Electrolyte Interface, link, R. Narayanan, H. Yamada, B.C. Marin, A. Zaretski, and P.R. Bandaru, Journal of Physical Chemistry Letters, vol. 8, 4004, (2017)
Electrochemical kinetics and dimensional considerations at the nanoscale: the influence of the density of states,H. Yamada, R. Narayanan, and P.R. Bandaru, MRS Communications, (2017)
The modification of the pore characteristics of activated carbon, for use in electrical double layer capacitors, through plasma processing,link M.L. Muriel, R. Narayanan, and P.R. Bandaru
ECS Transactions, vol. 77 (11), p.533, (2017)
Enhanced photocathode performance through optimization of film thickness and substrate, A. Alexander, N.A. Moody, and P.R. Bandaru, Journal of Vacuum Science & Technology B, 35 (2) 022202, 2017 pdf
Application of Impedance Matching for Enhanced Transmitted Power in a Thermophotovoltaic System, C. Lin, B. Wang, K.H. Teo, and P.R. Bandaru, Physical Review (Applied) 7, 034003, 2017 link pdf
The role of defects and dimensionality in influencing the charge, capacitance, and energy storage of graphene and 2D materials, link P.R. Bandaru, H. Yamada, R. Narayana, and M.A. Hoefer, DOI: https://doi.org/10.1515/ntrev-2016-0099
Enhanced solar evaporation of water from porous media, through capillary mediated forces and surface treatment, link, F. M. Canbazoglu, B. Fan, A. Kargar, K. Vemuri, and P.R. Bandaru, AIP Advances 6, 085218 (2016); doi: 10.1063/1.496194
Photo-response of a single Y-junction carbon nanotube link S.Samanta, D.Saini, A.Singha, K.Das, P. R. Bandaru, A. M. Rao, and A.K, Raychaudhuri
ACS Appl. Mater. Interfaces, DOI: 10.1021/acsami.6b04231, July, 2016
Electrochemical kinetics and dimensional considerations at the nanoscale, H. Yamada, P.R. Bandaru link
Subjects: Mesoscale and Nanoscale Physics (cond-mat.mes-hall); Materials Science (cond-mat.mtrl-sci); Chemical Physics (physics.chem-ph) (2016)
Graphene oxide as a p-dopant and an anti-reflection coating layer, in graphene/silicon solar cells, link
S. Yavuz, C. Kuru, D. Choi, A. Kargar, S. Jin, and P.R. Bandaru. Nanoscale, vol. 8(12), 6473, (2016) doi: 10.1039/c5nr09143h.
An approach towards a perfect thermal diffuser, K. P. Vemuri & P. R. Bandaru, link , Materials Science (cond-mat.mtrl-sci) (2016)
Electrically Conductive Polymer Nanocomposites with High Thermal Conductivity, P. R. Bandaru , B.-W. Kim, S. Pfeifer, R. S. Kapadia, S.-H. Park, link , Polymer Nanocomposites: Electrical and Thermal Properties (2016)
ISBN: 978-3-319-28236-7
High-performance flexible hydrogen sensor made of WS2 nanosheet–Pd nanoparticle composite film, link, C. Kuru, D. Choi, A. Kargar, C-H. Liu, S. Yavuz, C. Choi, S. Jin, and P. R. Bandaru, Nanotechnology, vol. 27(19), 195501, (2016)
Electrochemical charge storage in hierarchical carbon manifolds,link R. Narayanan, H. Vijwani, S. M. Mukhopadhyay, and P. R. Bandaru, Carbon, vol. 99, p. 267, (2016).
Enhanced quantum efficiency of photoelectron emission, through surface textured metal electrodes , link , A. Alexander, N.A. Moody, P.R. Bandaru, Journal of Vacuum Science & Technology A , vol. 35, 021401, (2016)
Bioinspired superhydrophobic surfaces, fabricated through simple and scalable roll-to-roll processing, pdf , S-H. Park, S. Lee, D. Moreira, P. R. Bandaru, I. Han & D-J. Yun, Scientific Reports (Nature) , 5, Article number: 15430 (2015)
Increasing Energy Storage in Activated Carbon based Electrical Double Layer Capacitors through Plasma Processing, pdf , M. Muriel, R. Narayanan, and P.R. Bandaru, Materials Research Society Symposium Proceedings, vol. 1773, DOI: 10.1557/opl.2015.573, (2015)
Solution-Processed CoFe2O4 Nanoparticles on 3D Carbon Fiber Papers for Durable Oxygen Evolution Reaction , linkA. Kargar, S. Yavuz, T. Kim, C. Liu, C. Kuru, C.S. Rustomji, S. Jin and P.R. Bandaru et al, ACS Applied Materials & Interfaces, vol. 7 (32), pp 17851–17856, (2015)
Reduction of Simulation Times for High-Q Structures Using the Resonance Equation link
T.W. Hall, P.R. Bandaru, and D. Rees, Progress In Electromagnetics Research M , Vol. 44, 149–160, (2015)
Enhanced Power Conversion Efficiency of Graphene/Silicon Heterojunction Solar Cells Through NiO Induced Doping, C. Kuru, S. Yavuz, A. Kargar, D. Choi, C. Choi, C.S. Rustomji, S. Jin, and P.R. Bandaru, Journal of Nanoscience and Nanotechnology, Vol. 16 (1), pp. 1190-1193, (2016) DOI: http://dx.doi.org/10.1166/jnn.2016.12079
Modulation of the Electrostatic and Quantum Capacitances of Few Layered Graphenes through Plasma Processing link R. Narayanan, H. Yamada, M. Karakaya, R. Podila, A. M. Rao, and P. R. Bandaru, Nanoletters, DOI: 10.1021/acs.nanolett.5b00055, (2015)
Thermal transport in laminar flow over superhydrophobic surfaces,utilizing an effective medium approach, link David Moreira and P.R. Bandaru, Physics of Fluids, 27, 052001 (2015)
Charge Transfer and Storage in Nanostructures, pdf , P.R. Bandaru, R. Narayanan, H Yamada, and M. Hoefer, Materials Science & Engineering (R), vol. 96, p. 1, (2015)
Estimating interfacial thermal conductivity in metamaterials through heat flux mapping,pdf
F. M. Canbazoglu, K. P. Vemuri, and P. R. Bandaru, Appl. Phys. Lett. 106, 143904 (2015).
Electrical Contacts to Nanomaterials, pdf P.R. Bandaru, H. Faraby, and M. DiBattista, Journal of NanoScience and Nanotechnology, vol. 15. p, 9315 (2015)
High Rate Capacity through Redox Electrolytes Confined in Macroporous Electrodes,pdf
R. Narayanan and P. R. Bandaru, Journal of The Electrochemical Society, vol. 162(1), p. A86-A91, (2015)
Layered thermal metamaterials for the directing and harvesting of conductive heat
P. R. Bandaru, K. P. Vemuri, F. M. Canbazoglu, and R. S. Kapadia,
AIP Advances 5, 053403 (2015); http://dx.doi.org/10.1063/1.4916220
2014
Guiding conductive heat flux through thermal metamaterials,pdf K. Vemuri, F. Canbazoglu, and P.R. Bandaru, Applied Physics Letters, vol. 105, p. 193904 (2014)
Enhanced electrical current densities in electrochemical systems through the use of nano structured electrodes, pdf H. Yamada and P.R. Bandaru, Applied Physics Letters, vol. 104, p. 213901 (2014)
Anomalous refraction of heat flux in thermal metamaterials,pdf K. Vemuri and P.R. Bandaru, Applied Physics Letters, vol. 104, p. 213901 (2014)
Experimental evidence for the bending of heat flux in a thermal metamaterial, pdf, T. Yang, K. Vemuri and P.R. Bandaru, Applied Physics Letters, vol. 105, p. 083908 (2014)
Anomalous decrease of the specific heat capacity at the electrical and thermal conductivity percolation threshold in nano composites, B-W. Kim, S.-H. Park, R.S. Kapadia, and P.R. Bandaru, pdf , Applied Physics Letters, vol. 105, p. 253108 (2014)
Heat flux concentration through polymeric thermal lenses, pdf, R. S. Kapadia and P. R. Bandaru, Applied Physics Letters, vol. 105, p. 233903 (2014)
Spreading of triboelectrically charged granular matter, pdf, D. Kumar, A. Sane, S. Gohil, P.R. Bandaru, S. Bhattacharya & S.Ghosh,, Scientific Reports (Nature) 4, Article: 5275 doi:10.1038/srep05275
Percolation of gallium dominates the electrical resistance of focused ion beam deposited metals, pdf, H. Faraby, M. DiBattista, P.R. Bandaru, Applied Physics Letters, vol. 104 (17), p. 173107 (2014)
Reduced electrical impedance of SiO2, deposited through focused ion beam based systems, due to impurity percolation, pdf H. Faraby, M. DiBattista, P.R. Bandaru, Journal of Applied Physics, vol. 116, p. 204301 (2014)
A Methodology for Quantitatively Characterizing the Dispersion of Nanostructures in Polymers and Composites, pdf S. Pfeifer and P.R. Bandaru, Materials Research Letters, vol. 2(3), p, 166 (2014).
2013
Geometrical considerations in the control and manipulation of conductive heat flux in multilayered thermal metamaterials, Applied Physics Letters,pdf, K. Vemuri and P.R. Bandaru, vol. 103, p. 133111 (2013)
Evidence of percolation related power law behavior in the thermal conductivity of nanotube/polymer composites, pdf B-W. Kim, S.-H. Park, R.S. Kapadia, and P.R. Bandaru, Applied Physics Letters, vol. 102, p. 243105 (2013)
Optical methods for the measurement of thermal conductivity, pdf
P.R. Bandaru and M.S. Aubain, Handbook of Measurement in Science and Engineering, vol. 2, Editor: M.Kutz, John Wiley Inc., (2013)
The Influence of Carbon Nanotube Aspect Ratio on Thermal Conductivity Enhancement in Nanotube–Polymer Composites, R. S. Kapadia, B.M. Louie and P. R. Bandaru, pdfASME Journal of Heat Transfer, 136(1), 011303 (2013)
Limits to the magnitude of capacitance in carbon nanotube array electrode based electrochemical capacitorspdf
H. Yamada and P.R. Bandaru, Applied Physics Letters, vol. 102, 173113, (2013).
Modeling High Energy Density Electrical Inductors Operating at THz Frequencies Based on Coiled Carbon Nanotubes pdf
H. Faraby. A.M. Rao, and P.R. Bandaru, IEEE Electron Device Letters, vol. 34, 807, (2013).
Superior electrical and mechanical characteristics observed through the incorporation of coiled carbon nanotubes, in comparison to non-coiled forms in polymerspdf
S.-H. Park, D.-J. Yun, P. Theilmann, P.R. Bandaru, Polymer, vol. 54, 1318, (2013).
Enhanced Capacitance in closely spaced carbon nanotube arrays pdf
M. Hoefer and P.R. Bandaru, Journal of the Electrochemical Society, vol. 160 (6) H360-H367, (2013).
Modeling the Relative Dielectric Permittivity and Impedance of Carbon Nanotube Constituted Polymer Composites in the Sub-GHz Regimepdf
S. Pfeiffer, S-H. Park, and P.R. Bandaru, ECS Solid State Letters, vol. 2, M5, (2013).
2012
Ultra-high Optical Absorption Efficiency From The Ultraviolet To The Infra-red Using Multi-walled Carbon Nanotube (MWCNT) ensembles pdf
A. B. Kaul, J.B. Coles, M. Eastwood, R.O. Green and P.R. Bandaru, Small, vol. 48, 638, (2012).
Optimization of microwave absorption of carbon nanotube composites through the use of carboxyl-epoxide functional group linkagespdf pdf
P. Theilmann, K.M. Chu, P.R. Bandaru, P. Asbeck, and S.H. Park , Electronics Letters, vol. 48, 638, (2012).
Feasibility of enhancing the thermoelectric power factor in GaNAs, pdf
P. Pichanusakorn, Y. J. Kuang, C. Patel, C. W. Tu, and P. R. Bandaru, Physical Review B, vol. 86, 085314, (2012).
2011
In-plane thermal conductivity determination through thermoreflectance analysis and measurements, pdf
M.S. Aubain and P.R. Bandaru, Journal of Applied Physics, vol. 110, 084313, (2011) (online/in press)
The influence of dopant type and carrier concentration on the effective mass and Seebeck coefficient of GaNAs thin filmspdf
P. Pichanusakorn, Y.J. Kuang, C.J. Patel, C.W. Tu, and P.R. Bandaru, Applied Physics Letters, vol. 99, 072114, 2011
Determination of diminished thermal conductivity in silicon thin films using scanning thermoreflectance thermometry, pdf
M.S. Aubain and P.R. Bandaru, Applied Physics Letters, vol. 97, 253102, 2011
Optical methods for the measurement of thermal conductivity,
M.S. Aubain and P.R. Bandaru, Encyclopedia of Engineering Measurements, John Wiley Inc., 2011
The experimental determination of the onset of electrical and thermal conductivity percolation thresholds in carbon nanotube-polymer composites, pdf
B-W. Kim, S.Pfeifer, S-H. Park, and P.R. Bandaru, Materials Research Society symposium proceedings, December, 2010
2010
Elastic Response of Carbon Nanotube Forests to Aerodynamic Stresses, pdf
I. Battiato, P.R. Bandaru, and D.M. Tartakovsky, Physical Review Letters, 105, 144504, (2010)
In-plane thermal conductivity determination in silicon-on-insulator structures through thermoreflectance measurements pdf
M. Aubain and P.R. Bandaru, Thermoelectric Materials – Growth, Properties, Novel Characterization Methods, and Applications,
Materials Research Society symposium, April, 2010
The influence of coiled nanostructure on the enhancement of dielectric constants and electromagnetic shielding efficiency in polymer composites pdf
S-H. Park, P. Theilmann, K. Yang, A.M. Rao, and P.R. Bandaru, Applied Physics Letters, vol.96, 043115 (2010)
– selected for the Virtual Journal of Nanoscale Science & Technology, (2010)
Analysis of electrical percolation thresholds in carbon nanotube networks, using the Weibull probability distribution pdf
S. Pfeifer, S.-H. Park and P.R. Bandaru, Journal of Applied Physics, vol.108, 024305, (2010)
– selected for the Virtual Journal of Nanoscale Science & Technology, (July, 2010)
Defect engineering of the electrochemical characteristics of carbon nanotube varieties pdf
M. Hoefer and P.R. Bandaru, Journal of Applied Physics, vol.108, 034308, (2010)
– selected for the Virtual Journal of Nanoscale Science & Technology, (August, 2010)
Minimum length scales for enhancement of the power factor in thermoelectric nanostructurespdf
P. Pichanusakorn, and P.R. Bandaru, Journal of Applied Physics, vol.107, 074304, (2010)
Improvement of the mechanical properties of carbon nanotube/polymer composites through the use of carboxyl-epoxide functional group linkages pdf
S-H. Park and P.R. Bandaru, Polymer, 51, 5071, (2010)
An outline of the synthesis and properties of silicon nanowires pdf
P.R. Bandaru and P. Pichanusakorn, Semiconductor Science and Technology, vol.25, 024003 (2010)
Nanostructured Thermoelectrics pdf
P. Pichanusakorn, and P.R. Bandaru, Materials Science and Engineering – Reports (R), vol. 67, p. 19 (2010)
Carbon nanotube Y-junctions, pdf
P.R. Bandaru, Handbook of Nanophysics, Taylor & Francis (CRC Press), accepted (May, 2010)
BOOK CHAPTER “Electronic and Photonic Applications of One-Dimensional Carbon and Silicon Nanostructures” pdf
in Encyclopedia of Semiconductor Nanotechnology, A. Kaul and P.R. Bandaru
Editors: A. Umar (American Scientific Publishers)
2009 and pre-
Determination and enhancement of the capacitance contributions in carbon nanotube based electrode systems pdf
M. Hoefer and P.R. Bandaru, Applied Physics Letters, vol. 95, 183108, (2009)
– selected for the Virtual Journal of Nanoscale Science & Technology, (2009)
The response of carbon nanotube ensembles to fluid flow: Applications to mechanical property measurements and diagnostics pdf
C. Ni, C. Deck, K.S. Vecchio, and P.R. Bandaru, Journal of Applied Physics, vol.106, 074304, (2009)
– selected for the Virtual Journal of Nanoscale Science & Technology, (2009).
Determination of thermal parameters of one-dimensional nanostructures through a thermal transient method, pdf
A. Arriagada, E.T. Yu, and P.R. Bandaru, Journal of Thermal Analysis and Calorimetry, vol. 97, 1023-1026, (2009)
A diminished thermal conductivity of Si/SiGe multilayers, established through current frequency variation pdf
A. Dooraghi, D. Krommenhoek, N. Elsner, and P.R. Bandaru, Materials Research Society symposium on
Nanoscale Heat Transport—From Fundamentals to Devices (2009)
Enhanced electromagnetic interference shielding through the use of functionalized carbon nanotube-reactive polymer composites pdf
S-H. Park, P. Theilmann, P. Asbeck, P.R. Bandaru, IEEE Transactions of Nanotechnology, TNANO.2009.2032656, (2009)
Enhanced optical absorption cross-section characteristics of multi-wall carbon nanotubes pdf
C. Ni and P.R. Bandaru, Carbon, vol.47, 2898, (2009)
The optimal Seebeck coefficient for obtaining the maximum power factor in thermoelectrics pdf
P. Pichanusakorn, and P.R. Bandaru, P.R., Applied Physics Letters, vol. 94, p. 223108, (2009)
Enhanced dielectric constants and shielding effectiveness of uniformly dispersed functionalized carbon nanotube composites pdf
S.-H. Park, P. Theilmann, P. Asbeck, P.R. Bandaru, Applied Physics Letters, vol. 94, p. 243111, (2009)
– selected for the Virtual Journal of Nanoscale Science & Technology, 2009.
InP layer transfer with masked implantation pdf
W. Chen, P.R. Bandaru, C.W. Tang, K.M. Lau, T.F. Kuech, and S.S. Lau, Electrochemical and Solid State Letters, vol. 12, HH149, (2009)
Toxicity issues in the application of carbon nanotubes to biological systems pdf
C. Firme and P.R. Bandaru, Nanomedicine: Nanotechnology, Biology, and Medicine, doi:10.1016/j.nano.2009.07.003 (2009)
– selected for the Virtual Journal of Nanotechnology Environment, Health and Safety (2010) http://icon.rice.edu/virtualjournal.cfm
Geometry transformation and alterations of periodically patterned Si nanotemplates by dry oxidation pdf
J. Park, L.H. Chen, D. Hong, C. Choi, M. Loya, K Brammer, P.R. Bandaru, and S. Jin, NANO, vol. 20, 015303, (2009)
Morphology control of carbon nanotubes through focused ion beams pdf
M. Loya, J.E. Park, L.H. Chen, K.S. Brammer, P.R. Bandaru, and S. Jin, NANO, vol. 3, p. 449-454, (2009)
BOOK: Nanotubes, Nanowires, Nanobelts and Nanocoils- Promise, Expectations, and Status,
Editors: P.R. Bandaru, S. Grego, and I. Kinloch, vol. 1142, Materials Research Society, Warrendale, PA
BOOK CHAPTER in Carbon Nanotubes- Multifunctional Materials
Y-branched Carbon Nanotubes: Synthesis and Electrical Applications,
P.R. Bandaru
Editors: P.R. Somani and M. Umeno
Modification of the Electrical Characteristics of Single Wall Carbon Nanotubes Through Selective Functionalization,
C.Ni, J. Chattopadhyay, W. E. Billups, and P. R. Bandaru Applied Physics Letters, 93 (2008): 243113.
Tailoring the Electrochemical behavior of multiwalled carbon nanotubes through Argon and Hydrogen ion irradiation, pdf
J.A. Nichols, H. Saito, M. Hoefer, and P.R. Bandaru, Electrochemical and Solid State Letters, vol. 11(4), K35-K39, (2008)
– also accepted to the Virtual Journal of Nanoscale Science & Technology, (2008).
Giant birefringence in multi-slotted silicon nanophotonic waveguides pdf
S. H. Yang, M. L. Cooper, P. R. Bandaru and S. Mookherjea, Optics Express, Vol. 16, 8306-8316 (2008)
Localization in silicon nanophotonic slow light waveguides pdf
S. Mookherjea, J.S. Park, S.H-Yang, and P.R. Bandaru, Nature Photonics, vol. 2, p. 90, (2008)
Increasing electrical conductivity in sputter-deposited Si/SiGe multilayers through electrical pulse based annealing, pdf, P. Pichanusakorn, N.B. Elsner, and P.R. Bandaru, Electronics Letters, vol. 44, no. 21, p. 1274 (2008)
Optical determination of the flexural rigidity of carbon nanotube ensembles, pdf
C. Ni, C. Deck, K.S. Vecchio, and P.R. Bandaru, Applied Physics Letters, vol. 92, 173106, (2008)
– selected for the Virtual Journal of Nanoscale Science & Technology, (2008)
Rational synthesis of helically coiled carbon nanowires and nanotubes through the use of tin and indium catalysts, pdf
W. Wang, K. Yang, J. Gaillard, P.R. Bandaru, and A.M. Rao, Advanced Materials, vol. 20, p. 179-182, (2008)
The effect of surface texture and geometry on spoof surface plasmon dispersion, pdf
S.-H. Yang and P.R. Bandaru, Optical Engineering, vol. 47 (20), p. 29001, (2008)
Increasing Mn substitution in magnetic semiconductors through controlled ambient annealing processes, pdf
J.P. Hollingsworth and P.R. Bandaru, Materials Science and Engineering B, vol. 151, p 152-156, (2008)
Artificial introduction of defects into vertically aligned multiwalled carbon nanotube ensembles: Application to electrochemical sensors pdf
J.A. Nichols, H. Saito, C. Deck, and P.R. Bandaru, Journal of Applied Physics, vol. 102, 064306, (2007)
– selected for the Virtual Journal of Nanoscale Science & Technology, 2008.
An experimental study of the reactive ion etching of GaP using BCl3 plasma processing, pdf
S.-H. Yang and P.R. Bandaru, Materials Science and Engineering B, vol. 143, p 27-30, (2007)
A plausible mechanism for the evolution of helical forms in nanostructure growth, pdf
P.R. Bandaru, C. Daraio, K. Yang, and A.M. Rao, Journal of Applied Physics, vol. 101, no.9, 094307 (2007)
– selected for the Virtual Journal of Nanoscale Science & Technology, May21, (2007).
Electrical Applications for Novel Carbon Nanotube Morphologies: Does function follow shape?, pdf
P.R. Bandaru, A.M. Rao, Journal of Materials, Special Issue on Nanomaterials for Electronic Applications, vol. 7. p. 33-38, (2007): Invited paper
Electrical Properties and Applications of Carbon Nanotube Structures pdf
P.R. Bandaru, Special Issue on Fullerenes and Carbon Nanotubes, Journal of Nanoscience and Nanotechnology, vol. 7. p. 1239-1267, (2007): Invited paper
Electrical Characterization of Carbon Nanotube Y-junctions: a foundation for new nanoelectronics, pdf
P.R. Bandaru, Journal of Materials Science, vol. 42, p. 1809-1818, (2007): Invited paper
Enhanced Differential Conductance through Light Induced Current Switching in Mn12 Acetate molecular junctions, pdf
C. Ni, S. Shah, D. Hendrickson, P.R. Bandaru, Applied Physics Letters, vol. 89, 212104 (2006)
Three-way electrical gating characteristics of metallic Y-junction carbon nanotubes pdf
J. Park, C. Daraio, S. Jin, P.R. Bandaru, J. Gaillard, and A.M. Rao, Applied Physics Letters, vol. 88, 243113, (2006)
– selected for the Virtual Journal of Nanoscale Science & Technology, May27, (2006).
Enhanced Room Temperature Ferromagnetism in Co- and Mn-Ion Implanted Silicon, pdf
P.R. Bandaru, J. Park, J.S. Lee, Y.J. Tang, L. H. Chen, S. Jin, S.A. Song, and J. O’Brien, Applied Physics Letters, vol. 89, 112502, (2006)
Novel electrical switching behavior and logic in carbon nanotube Y-junctions, pdf
P.R. Bandaru, C. Daraio, S. Jin, and A.M. Rao, Nature Materials, vol. 4(9), 663-666, (2005)
Carbon-Nanotube based Non volatile memory, pdf
J.P. Hollingsworth and P.R. Bandaru, Applied Physics Letters, Vol. 87, 23315, (2005)
– selected for the Virtual Journal of Nanoscale Science & Technology, May27, (2005)
Control of Carbon Nanotube Morphology by Change of Applied Bias Field During Growth, pdf
L.-H. Chen, J. F. AuBuchon, A. Gapin, C. Daraio, P. Bandaru, S. Jin, D. W. Kim, and I. K. Yoo, and, C. M. Wang, Applied Physics Letters, Vol. 85, 5373, (2004)
Fabrication and characterization of low temperature (< 450oC) grown p-Ge/n-Si photodetectors for silicon based photonics, pdf
P.R. Bandaru, S. Sahni, E. Yablonovitch, J. Liu, H.-J. Kim and Y.-H. Xie, Materials Science & Engineering B, vol. 113, no. 1, 79, (2004).
Ge films grown on Si substrates by molecular-beam epitaxy below 450 oC, pdf
J. Liu, H.-J. Kim, O. Hulko, Y.-H. Xie, S. Sahni, P. Bandaru, and E. Yablonovitch, Journal of Applied Physics, vol. 96, no. 1, 916, (2004).
Single photoelectron trapping, storage, and detection in a field effect transistor, pdf
H. Kosaka, D.S. Rao, H. Robinson, P.R.Bandaru, K. Makita and E.Yablonovitch, Physical Review B Vol. 65, 045104, (2003)
Semiconductor surface-molecule interactions: wet etching of InP by a-hydroxy acids, pdf
P.R. Bandaru and E. Yablonovitch, Journal of the Electrochemical Society, 149(11), G599, (2002).
Photoconductance quantization in a single-photon detector, pdf
H. Kosaka, D.S. Rao, H. Robinson, P. R. Bandaru, T. Sakamoto and E.Yablonovitch, Physical Review B (Rapid Communications), Vol. 65, 201307, (2002)
– selected for the Virtual Journal of Nanoscale Science & Technology, May27, (2002).
Magneto-optical properties of chromium substituted MnBi thin films, pdf
P. R. Bandaru, T. D. Sands, D. Weller and E. Marinero, Journal of Applied Physics, Vol. 86, No. 3, 1596, (1999).
Decoupling of the structural and magnetic phase transformations in magneto-optic MnBi thin films by the partial substitution of Mn by Cr, pdf
P. R. Bandaru, Timothy D. Sands, Yukiko Kubota and Ernesto Marinero, Applied Physics Letters, Vol. 72, No. 18, 2337, (1998)
Superparamagnetic nanocomposite of silver/iron-oxide by inert gas condensation, pdf
T. Yamamoto, R.D. Shull, P.R. Bandaru, F. Cosandey, M. Croft, and T. Madey, T. Japanese Journal of Applied Physics, Part 2 (Letters), vol.33, L1301 (1994)
Precipitation hardening in nickel-copper base alloy Monel K 500, pdf
G.K. Dey, R. Tewari, Prabhakar Rao, S.L. Wadekar, S. Sundararaman, R.T. Savalia, R.T. and Banerjee, S. Metallurgical Transactions A, vol.24A, 2709 (1993)