(Reverse chronological order.  If this list appears to be out-of-date, try viewing the Google Scholar Profile)


(In Preparation) Ye N., Feser JP, “Thermal Conductance of Epitaxial NiAl1-xGax/GaAs interfaces: The roles of phonon band engineering and weak-electron phonon coupling”

[35] Bo E. Tew Pratyusha Vempati Laura E. Clinger Cory C. Bomberger Nicole I. Halaszynski Tela Favaloro Jae H. Seol Joseph P. Feser Arun Majumdar Ali Shakouri John E. Bowers Je‐Hyeong Bahk Joshua M. O. Zide, “High Thermoelectric Power Factor and ZT in TbAs:InGaAs Epitaxial Nanocomposite Material” Advanced Electronic Materials (accepted, 2019)

[34] Feser JP, “Engineering Heat Transport in Nanopartice-in-Alloy Composites:  The Role of Mie Scattering,” Journal of Applied Physics (accepted, 2019).

[33] Kakodkar RR, Feser JP, “Wavevector and Polarization Resolved Analysis of Phonon Scattering from Embedded Nanoparticles,” Journal of Applied Physics 124, 085107 (2018)

[32]  Unni V, Feser JP, “A Mode-Resolved Continuum Mechanics Model of Acoustic Wave Scattering From Embedded Cylinders”, Journal of Vibration and Acoustics 141 (1), 011015 (2019)

[31]  Feser JP* and Ravichandran J*, “Thermal Harvesting: More power to pyroelectrics,” Nature Materials, 17, 385-386 (2018).

[30] Carrete J, Vemeersch B, Thumfart L, Kakodkar RR, Trevisi G, Frigeri P, Servalli L, Feser JP, Rastelli A, Mingo N, “Predictive design and experimental realization of InAs/GaAs superlattices with tailored thermal conductivity”, The Journal of Chemistry C, 122(7), 4054-4062 (2018).

[29] Thumfart L, Carrete J, Vermeersch B, Ye N, Truglas T, Feser JP, Groiss H, Mingo N, Rastelli A, “Thermal transport through Ge-rich Ge/Si superlattices grown on Ge(001)”, Journal of Physics D: Applied Physics, 51(1) (2017).

[28] Kakodkar RR, Feser JP, “Probing the validity of the diffuse mismatch model for phonons using atomistic simulations,” Physical Review B, 95, 125434 (2017)

[27] Li H, Aulin Y, Frazer L, Borguet E, Kakodkar RR, Feser JP, Chen Y, An K, Dikin DA, Ren F., “Structure evolution and thermoelectric properties of carbonized polydopamine thin films,” ACS Applied Materials and Interfaces, 9 (8), pg 6655–6660 (2017).

[26] Ye N, Sadasivam S, Fisher TS, Wang T, Ni C, Janotti A, Feser JP. “Thermal Transport Across Metal Silicide-Silicon Interfaces: An Experimental Comparison between Epitaxial and Non-epitaxial Interfaces,” Physical Review B, 95, 085430 (2017).

[25] Sadasivam S, Ye N, Charles J, Miao K, Feser JP, Kubis T, Fisher TS, “Thermal Transport Across Metal Silicide-Silicon Interfaces: First-Principles Calculations and Green’s Function Transport Simulations.” Physical Review B, 95, 085310 (2017).

[24] Saha B, Koh YR, Feser JP, Sadasivam S, Fisher TS, Shakouri A, and Sands T, “Phonon Wave Effects in the Thermal Transport of Epitaxial TiN/(Al,Sc)N Metal/Semiconductor Superlattices,” Journal of Applied Physics, 121(1), 015109 (2017).

[23] Unni V, Feser JP, “Mode-Resolved Continuum Mechanics Model of Phonon Scattering from Embedded Cylinders,” Proceedings of the 2016 Summer Heat Transfer Conference (peer-reviewed), HT2016-7219, Washington D.C. (2016).

[22] Kakodkar RR, Feser JP, “A framework for solving phonon-structure scattering problems in the frequency domain with atomic resolution.” Journal of Applied Physics, 118, 094301 (2015)

[21] Gunning NS, Feser JP, Beekman M, Cahill DG, Johnson DC, “Synthesis and Thermal Properties of Solid-State Structural Isomers: Ordered Intergrowths,” Journal of the American Chemical Society, 137(27), 8803-8809 (2015)

[20] Feser JP, Liu J, Cahill DG, “Pump-probe measurements of the thermal conductivity tensor for materials lacking in-plane symmetry,” Review of Scientific Instruments, 85 (10), 104903 (2014).

[19] Gunning, N, Feser, JP; Falmbigl, M; Beekman, M; Cahill, DG; Johnson, D, “Synthesis, structure, and thermal conductivity of [(SnSe)1+y]n[MoSe2]n compounds,” Semiconductor Science and Technology 29 (12), 124007 (2014)

[18] Hohensee GT, Wilson RB, Feser JP, Cahill DG, “Magnon-phonon coupling in the spin-ladder compound Ca9La5Cu24O41 measured by time-domain thermoreflectance,” Physical Reviews B, 89, pg 024422 (2014)

[17] Chen P, Zhang JJ, Feser JP, Pezzoli F, Moutanabbir O, Cecchi S, Isella G, Gemming T, Baunack S, Chen G, Schmidt OG, Rastelli A, “Thermal transport through short-period SiGe nanodot superlattices,”  Journal of Applied Physics, 115, pg 044312 (2014)

[16] Wilson RB, Feser JP, Hohensee GT, Cahill DG, “Two-channel model for nonequilibrium thermal transport in pump-probe experiments,” Physical Reviews B, 88, pg 144305 (2013)

[15] Chen P, Katcho, NA, Feser JP, Li W, Glaser M, Schmidt OG, Cahill DG, Mingo N, Rastelli A, “Role of Surface-Segregation-Driven Intermixing on the Thermal Transport through Planar Si/Ge Superlattices,” Physical Review Letters, 111, pg 115901 (2013)

[14] Feser JP*, Xu D*, Lu H, Shakouri A, Gossard A, Majumdar A “Reduced thermal conductivity in Er-doped epitaxial InxGa1-xSb alloys,” Applied Physics Letters, 103, pg 103102 (2013) (* contributed equally)

[13] Weisensee PB, Feser JP, Cahill DG, “Effect of Ion Irradiation on the Thermal Conductivity of UO2 and U3O8 epitaxial layers,” Journal of Nuclear Materials, 443(1), pg 212-217 (2013).

[12] Feser JP, Chan E., Majumdar A, Segalman RA, Urban JJ, “Ultralow Thermal Conductivity in Polycrystalline CdSe Thin Films with Controlled Grain Size,” Nano Letters, 13(5), 2122 (2013)

[11] Feser JP, Hsu KH, Sadhu J.S., Azeredo BP, Hsu KH, Ma J, Kim J, Seong M, Fang NX, Li X, Ferreira PM, Sinha S, Cahill DG, “Thermal Conductivity of Silicon Nanowire Arrays with Controlled Roughness,” Journal of Applied Physics, 112, 114306 (2012)

[10] Feser JP, Cahill DG, “Probing Anisotropic Heat Transport using Time-Domain Thermoreflectance with Offset Laser Spots,” Review of Scientific Instruments, 83, 104901 (2012).  (There’s an erratum to fix some typographical errors in the original manuscript.  Sorry!)

[9] See K, Feser JP, Chen C, Majumdar A, Segalman RA, Urban JJ, “Water-Processable Polymer-Nanocrystal Hybrids for Thermoelectrics,” Nano Letters, 10(11), (2010).

[8] Zide, JMO, Bahk J-H, Singh R, Zebarjadi M, Zeng G, Lu H, Feser JP, Xu D, Singer SL, Bian ZX, Majumdar A, Bowers JE, Shakouri A, Gossard AC, “High Efficiency Semimetal/Semiconductor Nanocomposite Thermoelectric Materials,” Journal of Applied Physics, 108(12), 123702, (2010)

[7] Wang R, Feser JP, Gu X, Yu K.M., Segalman RA, Majumdar A, Milliron D.J., Urban JJ, “A Universal and Solution-Processable Precursor to Bismuth Chalcogenide Thermoelectrics,” Chemistry of Materials, 22(6): 1943-1945 (2010)

[6] Bahk J-H, Bian ZX, Zebarjadi M, Zide JMO, Lu H, Xu D, Feser JP, Zeng G, Majumdar A, Gossard AC, Shakouri A, Bowers JE, “Thermoelectric Figure of Merit of (In0.52Ga0.47As)0.8(In0.52Ga0.48As)0.2 III-V Semiconductor Alloys,” Physical Review B, 235209 (2010)

[5] Sun J, Yeh M, Jung BJ, Feser JP, Majumdar A, Katz HE, “Simultaneous Increase in Seebeck Coefficient and Conductivity in a Doped Poly(alkylthiophene) Blend with Defined Density of States,” Macromolecules, 43 (6): pp2897-2903 (2010)

[4] Wang R, Feser JP, Lee JS, Talapin DV, Segalman RA, Majumdar A, “Enhanced Thermopower in PbSe Nanocrystal Quantum Dot Superlattices,” Nano Letters, 8(8): 2283-2288 (2008)

[3] Feser JP, Prasad AK, Advani SG. “Particle Image Velocimetry Measurements In a Model Proton Exchange Membrane Fuel Cell.” Journal of Fuel Cell Science and Technology, 4(3): 328-335 (2007)

[2] Feser JP, Prasad AK, Advani SG. “Experimental Characterization of In-Plane Permeability of Gas Diffusion layers.” Journal of Power Sources, 162(2): 1226-1231 (2006)

[1] Feser JP, Prasad AK, Advani SG. “On the Relative Influence of Convection in Serpentine Flow Fields of PEM Fuel Cells.” Journal of Power Sources, 161(1): 404-412 (2006)