Research Area Index

A   B   C   D   E   F   G   H   I   J   K   L   M   N   O   P   Q   R   S   T   U   V   W   X   Y   Z

A

• ac magnetometry: Shireen Adenwalla, Christian Binek
• additive manufacturing: Michael Sealy, Lucia Fernandez-Ballester, Nirupam Aich
• advanced application of sensing techniques for geosystems: Jongwan Eun
• advanced signal processing: Keegan Moore
• aerosol particles: Joshua Darr
• affinity-based separations: David Hage
• AFM: Sangjin Ryu
• Al₂O₃: Jennifer Brand
• alloys: Kirill Belashchenko, Michael Sealy
• alternating gradient force magnetometry: Shireen Adenwalla, Christian Binek
• amphiphilic molecules: Pat Dussault, Craig Eckhardt, Lucia Fernandez-Ballester
• angle-resolved photoemission: Jennifer Brand, Peter Dowben
• anisotropic composities: Florin Bobaru, Yuris Dzenis
• aeroeleasticity and data-driven flutter analysis: Keegan Moore
• atomic force microscopy: Barry Cheung, Pat Dussault, Yuris Dzenis, Craig Eckhardt, Eva Schubert, Xia Hong, Li Tan, John Woollam, Ruiguo Yang
• auger electron spectroscopy: Jennifer Brand, Peter Dowben, Ned Ianno, Majorie Langell

B (back to top)

• band structure: Peter Dowben, Sitaram Jaswal, Kirill Belashchenko
• beyond CMOS computing (emphasis on spintronics): Arman Roohi
• biological arrays: Li Tan
• biological macromolecules: Barry Cheung
• biological sensors: Nicole Iverson
• biological tissue: Diganta Dutta, Srivatsan Kidambi, Angie Pannier, Jody Redepenning
• biomaterials: Shudipto Dishari, Alexei Gruverman, Angela K. Pannier, Srivatsan Kidambi
• biomedical alloys: Ned J. Ianno, Jody Redepenning, Michael Sealy
• biomedical engineering: Forrest Kievit,  Nicole Iverson
• biophotonics: Wei Bao
• biophysics: Sangjin Ryu, Ruiguo Yang
• biopolymers: Lucia Fernandez-Ballester
• biosensors: Shudipto Dishari
• bioseparation: Shudipto Dishari
• boron carbides: Shireen Adenwalla, Jennifer I. Brand, Peter A. Dowben, Ned J. Ianno
• Brewster angle microscopy: Craig J. Eckhardt
• Brillouin scattering: Craig J. Eckhardt
• burnishing: Michael Sealy

C (back to top)

• carbides: Shireen Adenwalla, Jennifer Brand, Bai Cui, Peter Dowben, Ned Ianno
• carbon nanomaterials and nanostructure: Nicole Iverson, Siamak Nejati
• carbon nanotubes:  Wen Qian
• carbon spheres: Wen Qian
• cell mechanics: Sangjin Ryu, Ruiguo Yang
• ceramics: Jennifer Brand, Bai Cui, Marjorie Langell
• chemical engineering: Nirupam Aich
• chemical force microscopy: Craig Eckhardt
• chemical synthesis of polymers: Jennifer Brand, Gustavo Larsen, Siamak Nejati
• chemical vapor deposition: Shireen Adenwalla, Jennifer Brand, Peter Dowben, Ned Ianno, Siamak Nejati
• Chemo-physical and Multi-scale Characterization of Construction Materials: Hamzeh Haghshenas
• chiral materials: Eva Schubert, Hector Palencia
• chiral spin textures: Robert Streubel
• CMR oxides: Peter Dowben, Ned Ianno, Sitaram Jaswal, Xia Hong
• CO₂ geologic storage: Seunghee Kim
• Co/Pt and other multilayers: Shireen Adenwalla, Christian Binek
• cobalt oxides: Shireen Adenwalla, Christian Binek, Marjorie Langell 
• collision interactions: Tim Gay, Yusong Li
• collision physics: Florin Bobaru, Timothy J. Gay
• composite materials: Florin Bobaru, Bai Cui, Yuris A. Dzenis, Lucia Fernandez-Ballester, Jiong Hu
• composite micromechanics: Yuris Dzenis
• compound semiconductors: Jennifer Brand
• computer modelling: Florin Bobaru, Xiao Zeng, Yusong Li
• computational electromagnetics: Christos Argyropoulos
• computational magnetism: Kirill Belashchenko
• computational materials science and chemistry: Vitaly Alexandrov
• computational quantum chemistry: Hui Li
• computer simulation and modeling: Florin Bobaru, Xiao C. Zeng, Yusong Li, Jian Wang
• conducting polymers: Shudipto Dishari, Jennifer I. Brand, Jody Redepenning, Xiaoshan Xu
• conjugated polymers: Lucia Fernandez-Ballester
• continuum thermodynamic modeling: Mehrdad Negahban
• continuum thermodynamics of solids and solid-solid phase transitions: Mehrdad Negahban
• CoPt: Sy-Hwang Liou
• corrosion: Bai Cui, Michael Sealy
• crystallization of polymers: Lucia Fernandez-Ballester
• cryogenics: Alexandra Fursina
• curved geometries: Robert Streubel
• cyclodextrin: Patrick Dussault, Craig Eckhardt

D (back to top)

• damage micromechanics: Florin Bobaru, Yuris Dzenis
• data-driven modeling and identification: Keegan Moore
• dc magnetometry: Shireen Adenwalla, Christian Binek
• deep-learning hardware acceleration: Arman Roohi
• deep-learning security: Arman Roohi
• defect chemistry: Vitaly Alexandrov
• defects in solids: Jian Wang
• derivatized ferrocenes: Jody Redepenning
• diamond anvil cells: Craig Eckhardt
• diamond-like carbon: Jennifer Brand, Ned Ianno
• Dianin's inclusion compounds: Craig Eckhardt
• dielectrics: Jennifer Brand, John Woollam
• differential scanning calorimetry: Craig Eckhardt, Lucia Fernandez-Ballester
• diffuse reflectance infrared: Gustavo Larsen
• direct power conversion: Jennifer Brand
• disease development and resistance: Nicole Iverson
• dynamic mechanical spectroscopy: Xiaoshan Xu

E (back to top)

• electrochemical characterization: Bai Cui, Michael Sealy
• electrochemical techniques (spectroelectrochemistry, chronoamperometry, cyclic voltammeter, rotating ring-disk voltammetry, potentiometry): Jody Redepenning
• electromechanics of biomaterials: Alexei Gruverman
• electron and scanning probe techniques (emphasis on imaging): Robert Streubel
• electron energy loss spectroscopy: Tim Gay, Marjorie Langell
• electron microscopy: Bai Cui, Jeff Shield, Eva Schubert, John Woollam
• electron paramagnetic resonance: Gustavo Larsen
• electron spin resonance spectroscopy: Andrzej Rajca
• electron tomography: Bai Cui
• electron transport properties: Xia Hong
• electron-beam induced deposition: Xia Hong
• electronic structure: Vitaly Alexandrov
• electro-optic metrology: Stephen Ducharme
• electro-optic polymers and crystals: Stephen Ducharme
• electrospinning of nanofibers: Yuris Dzenis
• ellipsometry: Jennifer Brand, Ned Ianno, John Woollam
• energy: Shudipto Dishari
• energy efficiency & conservation: Seunghee Kim
• energy conversion & energy efficiency: Peter Sutter, Mohammad Ghashami
• environmental engineering: Nirupam Aich
• environmental health science: Nirupam Aich
• epoxy composites: Yuris Dzenis
• evaporation: Shireen Adenwalla, Eva Schubert, Xia Hong, Xiaoshan Xu
• exchange-coupled systems: Shireen Adenwalla, Christian Binek, Peter Dowben, Sitaram Jaswal, Sy-Hwang Liou, Xiaoshan Xu
• extension and shear testing: Mehrdad Negahban

F (back to top)

• fatigue testing: Yuris Dzenis, Michael Sealy
• ferroelectric domains- static and dynamic properties: Alexei Gruverman, Xia Hong, Xiaoshan Xu
• ferroelectric memory: Alexei Gruverman, Xia Hong, Xiaoshan Xu
• ferroelectric polymers: Shireen Adenwalla, Stephen Ducharme
• Fe-SiO₂: Sy-Hwang Liou
• finite-temperature magnetism: Kirill Belashchenko
• flow-induced crystallization: Lucia Fernandez-Ballester
• fluorescence: Joshua Darr, Shudipto Dishari, Yusong Li
• focused ion beam: Bai Cui
• Fourier transform infrared spectroscopy: Jennifer Brand, Joshua Darr, Craig Eckhardt
• friction and lubrication: Michael Sealy, Xiao Zeng
• friction and lubrication between two solid surfaces: Xiao Zeng
• fuel cells: Shudipto Dishari

G (back to top)

• gadolinium: Jennifer Brand, Peter Dowben, Sitaram Jaswal
• gas-liquid nucleation: Jennifer Brand, Xiao Zeng
• general organic synthesis: Andrzej Rajca
• geotechnical & geoenvironmental engineering: Jongwan Eun
• graphene: Wen Qian
• graphene devices: Alexandra Fursina
• graphite flakes: Wen Qian
• green extraction of bioactive lipids: Ozan Ciftci

H (back to top)

• hexagonal oxides: Xiaoshan Xu
• HgBa₂Ca₂Cu₃Ox: Sy-Hwang Liou
• high-field extraction magnetometry (HREM): Bai Cui
• high-performance liquid chromatography (HPLC): Pat Dussault
• high-spin macrocyclic and hyper-branched macromolecules: Andrzej Rajca
• high surface area strong solid acids: Gustavo Larsen
• high temperature, high pressure processing: Jennifer Brand, Bai Cui
• high-temperature materials: Jennifer Brand, Bai Cui
• high-temperature oxidation: Bai Cui
• high-temperature superconductors: Sy-Hwang Liou
• HMX: Craig Eckhardt
• hybrid biosensing nanoplatforms: Alexey Krasnoslobodtsev
• hydroxyapatite: Jody Redepenning

I (back to top)

• inert-atmosphere techniques: Pat Dussault
• infrastructure sustainability: Hamzeh Haghshena
• inorganic biomaterials: Jennifer Brand, Jody Redepenning
• in-situ mechanical testing in TEM and SEM: Jian Wang
• in-situ TEM: Bai Cui
• instrumentation and magnetic multilayers: Shireen Adenwalla
• integrated photonics and phononics: Yanan (Laura) Wang
• interface between oxides and organic materials: Xiaoshan Xu
• interfaces in solids: Siamak Nejati, Jian Wang
• interfacial fluid dynamics: Sangjin Ryu
• inverse photoemission: Peter Dowben
• ion beam technology: Eva Schubert
• irradiation hardening: Bai Cui
• iron (IV) sulfur complex crystals iron oxide: Marjorie Langell
• iron-sulfur dimer crystals Isopiestic measurement of thermodynamic properties of solutes: Jody Redepenning
• isotopic labeling: Gustavo Larsen

L (back to top)

• La_1-xMxMnO₃ {M=Ca, Sr, Ba}: Peter Dowben, Sy-Hwang Liou, Xia Hong
• laminates: Yuris Dzenis
• Langmuir isotherms: Craig Eckhardt, Yusong Li
• Langmuir monolayers: Pat Dussault, Craig Eckhardt
• Langmuir-Blodgett Films: Jennifer Brand, Stephen Ducharme, Pat Dussault, Craig Eckhardt
• large deformation thermomechanical response characterization: Mehrdad Negahban
• lattice Boltzmann modeling: Yusong Li
• laser cutting: Michael Sealy
• laser induced holographic grating relaxation: Stephen Ducharme
• laser physics: Wei Bao
• laser processing: Michael Sealy
• laser shock peening: Michael Sealy
• least square minimization techniques for the finite element method: Mehrdad Negahban, Yusong Li
• lipid particle formation: Ozan Ciftci
• low energy electron diffraction: Peter Dowben, Marjorie Langell

M (back to top)

• magnesium: Peter Dowben, Michael Sealy, Jian Wang
• magnetic dots: Peter Dowben
• magnetic oxides: Sitaram Jaswal, Marjorie Langell, Sy-Hwang Liou, Xia Hong
• magnetic properties by magnetic force microscopy: Sy-Hwang Liou
• magnetic thin films: Shireen Adenwalla, Sitaram Jaswal, Xia Hong, Xiaoshan Xu
• magneto electric materials: Christian Binek, Xiaoshan Xu
• magneto optic Kerr effect: Shireen Adenwalla, Christian Binek, Peter Dowben, Sitaram Jaswal
• manganese oxides: Jennifer Brand, Peter Dowben, Marjorie Langell, Sy-Hwang Liou, Xiaoshan Xu
• materials science: Nirupam Aich
• mechanical response of poly(methyl methacrylate): Mehrdad Negahban
• mechanistic analysis and design of pavements: Hamzeh Haghshenas
• membranes: Shudipto Dishari
• mercury: Peter Dowben
• mesoporous solids: Gustavo Larsen
• metal: Bai Cui
• metallocenes: Jennifer I. Brand, Peter Dowben, Marjorie Langell
• metallurgy: Bai Cui, Michael Sealy
• metamaterials: Christos Argyropoulos, Wei Bao
• metastable phases: Jennifer Brand
• methods development (advanced): Peter Sutter
• microfluidics: Diganta Dutta, Sangjin Ryu
• micro-mechanical testing: Yuris Dzenis
• micro/nanoscale energy transfer: Mohammad Ghashami
• microscale engineering: Wei Bao
• microscale fluid dynamics: Sangjin Ryu
• microstructural analysis: Yuris Dzenis, Jiong Hu
• microstructural evolution: Bai Cui
• miniaturized systems: David Hage
• mitigating micro/nanoplastic pollution: Nirupam Aich
• mixed metal oxides: Jennifer Brand, Marjorie Langell, Sy-Hwang Liou
• modeling of fast reactions: Hendrik Viljoen
• molecular-based statistical (nonclassical) theories: Jennifer Brand, Xiao Zeng
• molecular beam epitaxy: Christian Binek
• molecular imaging: Martin Centurion 
• molecular modeling: Peter Dowben, Pat Dussault
• molecular recognition: Pat Dussault
• Mott detectors: Tim Gay
• multi-gun reactive sputter deposition: Ned Ianno
• multiferroics: Alexei Gruverman, Xia Hong, Xiaoshan Xu
• multifunctional composites: Eric Markvicka
• multilayered structures: Shireen Adenwalla, Christian Binek, Jennifer Brand, Eva Schubert, Xia Hong, Jian Wang, John Woollam
• multiphase mass transport: Jongwan Eun 

N (back to top)

• nano/micro hybrid composites: Barry Cheung, Yuris Dzenis, Eva Schubert
• nanofabrication: Jennifer Brand, Eva Schubert, Li Tan, Srivatsan Kidambi, Xia Hong, , Robert Streubel, Alexandra Fursina
• nanofibers: Ruiguo Yang
• nano-imaging and nanomanipulation: Alexey Krasnoslobodtsev
• nano-imprint: Li Tan
• nano-/microelectromechanical systems (NEMS/MEMS): Yanan (Laura) Wang
• nanomaterials: Jiong Hu, Peter Sutter
• nano-mechanics: Jian Wang
• nano-medicine: Ruiguo Yang, Forrest Kievit
• nanoscale energy transport: Mohammad Ghashami
• nanostructures: Eli Sutter
• nanostructured magnetic films: Shireen Adenwalla, Christian Binek, Sy-Hwang Liou
• nanotheranostics: Forrest Kievit
• nanothermodynamics: Christian Binek
• nanotube synthesis: Barry Cheung
• natural rubber: Mehrdad Negahban
• near-field thermal radiation: Mohammad Ghashami
• nueromorphic computing: Arman Roohi
• Neutron detection: Shireen Adenwalla, Jennifer Brand
• Neutron reflectivity and scattering: Shireen Adenwalla
• nickel oxide: Shireen Adenwalla, Marjorie Langell
• nitrogen species: Nicole Iverson
• NMR: Andrzej Rajca
• non-equilibrium magnetic materials: Robert Streubel
• nonlinear dynamics and vibrations: Keegan Moore
• nonlinear energy guiding: Keegan Moore
• nonlinear measurements: Stephen Ducharme
• nonmetal to metal transitions: Peter Dowben
• nonreciprocal acoustics: Keegan Moore
• nucleation control: Lucia Fernandez-Ballester
• nucleation in polar fluids: Jennifer Brand, Xiao Zeng
• nucleation in quantum fluids: Xiao Zeng
• nucleation in two-dimensional fluids: Xiao Zeng
• neutron diffraction: Xiaoshan Xu

O (back to top)

• optical emission spectroscopy: Jennifer Brand, Ned Ianno
• optical spectroscopy: Yanan (Laura) Wang
• optical microscopy: John Woollam, Lucia Fernandez-Ballester, Wei Bao
• organic and polymer synthesis: Jennifer Brand, Andrzej Rajca
• organic conductors: Jennifer Brand, Andrzej Rajca, Li Tan
• oxidations: Jennifer Brand, Bai Cui, Pat Dussault, Marjorie Langell
• oxides: Jennifer Brand, Peter Dowben, Sitaram Jaswal, Marjorie Langell, Sy-Hwang Liou, Xia Hong, Xiaoshan Xu

P (back to top)

• packed bed reactor kinetics: Gustavo Larsen
• peroxides: PatDussault
• PFAS remediation: Nirupam Aich
• photochemistry: Jennifer Brand, Peter Dowben, Pat Dussault
• photoemission: Jennifer Brand, Peter Dowben, Marjorie Langell
• photolytic organometallic CVD: Jennifer Brand, Peter Dowben
• photo-physics: Yanan (Laura) Wang
• photo-refractive polymer films: Stephen Ducharme
• physical-chemical treatment of drinking water and wastewater: Nirupam Aich
• piezoelectric materials: Hendrik Viljoen
• piezomagnetic materials: Christian Binek, Xia Hong
• piezomodulation spectroscopy: Craig Eckhardt
• plant virus: Barry Cheung
• plasma etching processes: Jennifer Brand 
• plasma probe analysis: Jennifer Brand
• plasma processing of semiconductors: Jennifer Brand, Ned Ianno
• plasmas: Jennifer Brand, Ned Ianno
• plasmonics: Christos Argyropoulos
• plastic deformation: Bai Cui
• plastic deformation mechanisms of nano-structured materials: Jian Wang
• polarimeters: Tim Gay
• polarized electrons: Tim Gay
• pol(methyl methacrylate): Mehrdad Negahban
• polyaramid: Yuris Dzenis
• polydiacetylenes: Craig Eckhardt
• polyether imide: Stephen Ducharme
• polyamide: Yuris Dzenis
• polymer composites: Yuris Dzenis
• polymer nanofibers: Yuris Dzenis
• polymer-modified electrodes: Jody Redepenning
• polymers: Shudipto Dishari, Jennifer Brand, Stephen Ducharme, Craig Eckhardt, Mehrdad Negahban, Li Tan, Lucia Fernandez-Ballester
• poly-vinylidene fluoride: Shireen Adenwalla, Stephen Ducharme
• potassium and ammonium dinitramide: Craig Eckhardt
• p-polythiophene: Craig Eckhardt
• preparation of organometallic materials: Jennifer Brand
• protein misfolding phenomenon: Alexey Krasnoslobodtsev
• protein-protein interactions: Alexey Krasnoslobodtsev
• propagation of acoustic waves and thermal shock: Hendrik Viljoen
• Pr_xCo_x-1: Sy-Hwang Liou
• Pt-sulfated-zirconia (PtSZ): Gustavo Larsen
• pyrazines: Craig Eckhardt

Q (back to top)

• quantum computing: Abdelghani Laraoui,  Alexandra Fursina
• quantum dots: Peter Dowben
• quantum materials: Yanan (Laura) Wang, Alexandra Fursina
• quantum optics: Wei Bao
• quantum sensing: Abdelghani Laraoui
• quantum spin transport: Kirill Belashchenko

R (back to top)

• radiation damage: Bai Cui
• radiation detectors: Shireen Adenwalla, Jennifer Brand
• radiation tolerant nano-structured materials: Bai Cui
• Raman scattering: Jennifer Brand, Craig Eckhardt
• rare earth alloys: Jennifer Brand, Sitaram Jaswal
• rare earth metals: Peter Dowben
• rare-earth metals: Sitaram Jaswal
• RDX: Craig Eckhardt
• reactive oxygen: Nicole Iverson
• real-time structure evolution: Lucia Fernandez-Ballester
• real-time studies of plasma etching: Jennifer Brand
• real-time holography: Stephen Ducharme
• reconfigurable and adaptive computer architectures: Arman Roohi
• recycling processes: Mohammad Ghashami
• redox flow batteries: Vitaly Alexandrov
• residual stress characterization: Michael Sealy
• resonant photoemission: Peter Dowben
• robotics: Eric Markvicka

S (back to top)

• scanning electron microscopy: Bai Cui, Joshua Darr, Michael Sealy
• sculptured thin films: Eva Schubert
• second-harmonic generation techniques: Craig Eckhardt
• segmental motions and relaxation of polymer chains: Stephen Ducharme, Ned Ianno
• self-assembled monolayers: Li Tan, Srivatsan Kidambi
• self-assembly process: Barry Cheung, Siamak Nejati, Hector Palencia, Lucia Fernandez-Ballester
• semiconducting polymers: Jennifer Brand, Craig Eckhardt, Li Tan
• semiconductor films: Shireen Adenwalla, Jennifer Brand
• semiconductors: Shireen Adenwalla, Jennifer Brand, John Woollam
• III-IV nitrides: Jennifer Brand, Ned Ianno
• semi-empirical calculations: Pat Dussault
• separation process: Siamak Nejati
• sintering: Michael Sealy
• Sm_xCo_1-x: Sy-Hwang Liou
• soft materials: Eric Markvicka
• solid catalyst synthesis: Marjorie Langell, Gustavo Larsen
• solid superacids: Gustavo Larsen
• solid-solid phase transition: Jennifer Brand, Mehrdad Negahban, Jian Wang
• solvation mechanism of supercritical fluids: Jennifer Brand, Xiao Zeng
• spark plasma sintering: Bai Cui
• spectrophotometry: John Woollam
• spectroscopic ellipsometry: Stephen Ducharme, Eva Schubert, John Woollam
• specular reflection: Craig Eckhardt
• spin-orbit torque: Kirill Belashchenko
• spin-polarized inverse photoemission: Peter Dowben, Tim Gay
• spintronics: Kirill Belashchenko, Christian Binek, Xia Hong, Xiaoshan Xu,  Alexandra Fursina
• sputter deposition and plasma processing: Shireen Adenwalla, Jennifer Brand, Eva Schubert, Ned Ianno, Sy-Hwang Liou, Xia
• Hong
• SQUID magnetometry: Shireen Adenwalla, Christian Binek, Sy-Hwang Liou, Andrzej Rajca, Xiaoshan Xu
• stainless steels: Bai Cui
• stretchable electronics: Eric Markvicka
• stress corrosion cracking: Bai Cui, Michael Sealy
• structure characterization by transmission electron microscopy: Sy-Hwang Liou
• sub-micron devices: Jennifer Brand, Peter Dowben, Li Tan
• superconductors: Sy-Hwang Liou
• supported metal catalysts: Gustavo Larsen
• surface magnetism: Christian Binek, Peter Dowben, Sitaram Jaswal, Sy-Hwang Liou, Xiaoshan Xu
• surface treatments: Michael Sealy
• sustainability & energy-geotechnology: Seunghee Kim
• sustainable geotechnics: Jongwan Eun
• synchrotron radiation: Shireen Adenwalla, Jennifer Brand, Peter Dowben, Marjorie Langell, Lucia Fernandez-Ballester, Xiaoshan Xu
• synthesis of air sensitive compounds: Pat Dussault
• synthetic methods: Jennifer Brand, Pat Dussault
• system identification and model updating: Keegan Moore

T (back to top)

• theoretical chemistry: Hui Li
• thermal desorption spectroscopy: Peter Dowben, Marjorie Langell
• thermal gravimetric analysis: Bai Cui
• thermionics: Mohammad Ghashami
• thermoelectrics: Mohammad Ghashami
• thermo-mechanical durability: Florin Bobaru, Bai Cui, Yuris Dzenis
• thermophotovoltaics: Mohammad Ghashami
• thin film preparation and characterization: Shireen Adenwalla, Christian Binek, Jennifer Brand, Peter Dowben, Stephen Ducharme, Eva Schubert, Sy-Hwang Liou, Srivatsan Kidambi, Xia Hong, Li Tan, Hendrik Viljoen, John Woollam, Xiaoshan Xu,  Alexandra Fursina
• thin films: Shudipto Dishari, Jennifer Brand, Sy-Hwang Liou, Siamak Nejati, Hendrik Viljoen, John Woollam, Srivatsan Kidambi, Alexandra Fursina
• thin films preparation by magnetron sputtering: Shireen Adenwalla, Christian Binek, Sy-Hwang Liou, Xia Hong
• thin films preparation by pulsed laser deposition: Xiaoshan Xu
• TlBa₂Ca₂Cu₃O_x: Sy-Hwang Liou
• topological qubits: Alexandra Fursina
• transient photoconduction: Stephen Ducharme
• transmission electron microscopy: Bai Cui, Eli Sutter
• transport properties by a four-probe method: Sy-Hwang Liou, Xia Hong
• tribology: Michael Sealy
• tunable diode laser spectroscopy: Ned Ianno
• two-dimensional materials: Eli Sutter, Peter Sutter, Yanan (Laura) Wang

U (back to top)

• ultra-high-temperature ceramics: Bai Cui
• ultrafast electron diffraction: Martin Centurion 
• ultrafast molecular dynamics: Martin Centurion
• ultraviolet photoemission: Jennifer Brand, Peter Dowben, Marjorie Langell
• ultraviolet/visible absorption: Jennifer Brand, Ned Ianno
• underground construction & storage: Seunghee Kim
• unsaturated behavior of geomaterials: Jongwan Eun 

W (back to top)

• water quality engineering: Nirupam Aich
• weak beam imaging: Bai Cui
• wide band gap semiconductors: Shireen Adenwalla, Jennifer Brand, Peter Dowben, Ned Ianno, Marjorie Langell
• wide-bandgap materials: Yanan (Laura) Wang

X (back to top)

• xerographic polymers: Stephen Ducharme
• x-ray absorption spectroscopies: Gustavo Larsen, Xiaoshan Xu
• x-ray diffraction: Shireen Adenwalla, Christian Binek, Jennifer Brand, Lucia Fernandez-Ballester, Eva Schubert, Xia Hong, Sy-Hwang Liou, Michael Sealy, John Woollam, Xiaoshan Xu
• x-ray magnetic circular dichroism: Shireen Adenwalla, Xiaoshan Xu
• x-ray magnetic linear dichroism: Shireen Adenwalla, Xiaoshan Xu
• x-ray photoemission: Jennifer Brand, Peter Dowben, Marjorie Langell

Z (back to top)

• zirconias: Gustavo Larsen