2019 Publications Utilizing the AIF

Acknowledgement Statement for User Publications

Publications that include results obtained at AIF should acknowledge the Facility with this statement:

This work was performed in part at the Analytical Instrumentation Facility (AIF) at North Carolina State University, which is supported by the State of North Carolina and the National Science Foundation (award number ECCS-1542015). The AIF is a member of the North Carolina Research Triangle Nanotechnology Network (RTNN), a site in the National Nanotechnology Coordinated Infrastructure (NNCI).

After your results have been published, please submit bibliographic information to aif-contact@ncsu.edu.

2019

154. A. Tanneeru, F. P. Akbulut, B. Lee and V. Misra, “A novel monolithic array of multiple metal oxide sensors for E-Nose applications via selective on-chip annealing of nanolayered ALD stacks,” 2019 IEEE SENSORS, Montreal, QC, Canada, pp. 1-4 (2019).
153. Anthony, B. T.; Dowdell, B. G.; Miller, V. M., “Evolution of the Intermetallic Particle Distribution in Thixomolded Magnesium Alloys.” Magnesium Technology, pp. 193-197 (2019).
152. Chen, Yi-An; Chen, I-Te; Chang, Chih-Hao, “Increasing etching depth of sapphire nanostructures using multilayer etching mask.” Journal Of Vacuum Science & Technology B, 37 (6):061606 (2019).
151. Seok, Chunkyun; Ali, Ziad; Yamaner, F. Yalcin; Oralkan, Omer, “Ultrasound Transmission through a Flexible Printed Circuit Board Bonded to the Front Side of a Capacitive Micromachined Ultrasonic Transducer Array: Feasibility Study.” 2019 IEEE INTERNATIONAL ULTRASONICS SYMPOSIUM (IUS) (1948-5719), pp. 853-856 (2019).
150. Kumar, Vineet; O’Donnell, Shaun; Zoellner, Brandon; Martinez, Jhon; Wang, Gufeng; Maggard, Paul A., “Interfacing Plasmonic Nanoparticles with Ferroelectrics for Hot-Carrier-Driven Photocatalysis: Impact of Schottky Barrier Height.” ACS Applied Energy Materials, 2 (10):7690-7699 (2019). 
149. Farias, B. V.; Pirzada, T.; Mathew, R.; Sit, T. L.; Opperman, C.; Khan, S. A.; “Electrospun Polymer Nanofibers as Seed Coatings for Crop Protection.” ACS Sustainable Chem. Eng. 7 (24):19848-19856 (2019).
148. Mitchell, James B.; Geise, Natalie R.; Paterson, Alisa R.; Osti, Naresh C.; Sun, Yangyunli; Fleischmann, Simon; Zhang, Rui; Madsen, Louis A.; Toney, Michael F.; Jiang, De-en; Kolesnikov, Alexander, I; Mamontov, Eugene; Augustyn, Veronica, “Confined Interlayer Water Promotes Structural Stability for High-Rate Electrochemical Proton Intercalation in Tungsten Oxide Hydrates.” ACS Energy Letters, 4 (12):2805-2812 (2019).
147. Ashrafi, Zahra; Lucia, Lucian; Krause, Wendy, “Bioengineering tunable porosity in bacterial nanocellulose matrices.” Soft Matter, 15 (45):9359-9367 (2019).
146. Shahrin, Rahnuma; Bobko, Christopher P., “Micropillar compression investigation of size effect on microscale strength and failure mechanism of Calcium-Silicate-Hydrates (C-S-H) in cement paste.” Cement and Concrete Research, 125:105863 (2019).
145. Jia, Yujun; Chowdhury, Md Atiqur Rahman; Zhang, Dajie; Xu, Chengying, “Wide-Band Tunable Microwave-Absorbing Ceramic Composites Made of Polymer-Derived SiOC Ceramic and in Situ Partially Surface-Oxidized Ultra-High-Temperature Ceramics.” ACS Applied Materials & Interfaces, 11 (49):45862-45874 (2019).
144. Fang, X. T.; He, G. Z.; Ruiz, M.; Zheng, C.; Wang, Y. F.; Li, Z. K.; Zhu, Y. T., “Influence of annealing parameters on the mechanical properties of heterogeneous lamella structured 5083 aluminum alloy.” Letters on Materials, 9 (4):556-560 (2019).
143. Matavz, Aleksander; Bencan, Andreja; Kovac, Janez; Chung, Ching-Chang; Jones, Jacob L., “Additive Manufacturing of Ferroelectric-Oxide Thin-Film Multilayer Devices.” ACS Applied Materials & Interfaces, 11 (48):45155-45160 (2019).
142. Dou, Jian; Krzystowczyk, Emily; Wang, Xijun; Robbins, Thomas; Ma, Liang; Liu, Xingbo; Li, Fanxing, “A‐ and B‐site Codoped SrFeO3 Oxygen Sorbents for Enhanced Chemical Looping Air Separation.” ChemSusChem (2019).
141. Luo, Chengtao; Chang, Wei-Yi; Gao, Min; Chang, Chih-Hao; Li, Jiefang; Viehland, Dwight; Tian, Jian; Jiang, Xiaoning, “Multi-layered domain morphology in relaxor single crystals with nano-patterned composite electrode.” Acta Materialia, 182:10-17 (2019).
140. Pirzada, Tahira; Ashrafi, Zahra; Xie, Wenyi; Khan, Saad A., “Cellulose Silica Hybrid Nanofiber Aerogels: From Sol-Gel Electrospun Nanofibers to Multifunctional Aerogels.” Advanced Functional Materials, 1907359 (2019).
139. Mortelliti, Michael J.; Wang, Annie N.; Dempsey, Jillian L., “Atomic layer deposition of SnOx onto mesoporous, nanocrsytalline TiO2 and SnO2 thin films.” Polyhedron, 171:433-447 (2019).
138. Kombaiah, Boopathy; Sarkar, Apu; Murty, Korukonda Linga, “Effect of hydriding on the creep behavior of HANA-4 zirconium alloy.” Materials Science and Engineering:A:  767:138435 (2019).
137. Neal, Luke M.; Haribal, Vasudev Pralhad; Li, Fanxing, “Intensified Ethylene Production via Chemical Looping through an Exergetically Efficient Redox Scheme.” iScience, 19:894-904 (2019).
136. Hany, Ibrahim; Yang, Ge; Zhou, Chuanzhen Elaine; Sun, Cheng; Gundogdu, Kenan; Seyitliyev, Dovletgeldi; Danilov, Evgeny O; Castellano, Felix N.; Sun, Dali; Vetter, Eric, “Low temperature cathodoluminescence study of Fe-doped β-Ga2O3.” Materials Letters, 257:126744 (2019).
135. Jiang, Chenyu; Scholle, Frank; Ghiladi, Reza A., “Mn-doped Zn/S quantum dots as photosensitizers for antimicrobial photodynamic inactivation.” Photonic Diagnosis and Treatment of Infections and Inflammatory Diseases II, 10863:108630Q (2019). 
134. Strader, Phillip; Lee, Younghwan; Teska, Peter; Li, Xiaobao; Jones, Jacob L., “Approaches for Characterizing Surfaces Damaged by Disinfection in Healthcare.” Nano Life, 9 (4):1950002 (2019).
133. Gupta, Siddharth; Sachan, Ritesh; Narayan, Jagdish, “Scale-up of Q-carbon and nanodiamonds by pulsed laser annealing.” Diamond and Related Materials, 99:107531(2019). 
132. Matveyev, Yury; Mikheev, Vitalii; Negrov, Dmitry; Zarubin, Sergei; Kumar, Abinash; Grimley, Everett D.; LeBeau, James M.; Gloskovskii, Andrei; Tsymbal, Evgeny Y.; Zenkevich, Andrei, “Polarization-dependent electric potential distribution across nanoscale ferroelectric Hf0.5Zr0.5O2 in functional memory capacitors.” Nanoscale, 11 (42):19814-19822 (2019). 
131. Gupta, Siddharth; Sachan, Ritesh; Narayan, Jagdish, “Scale-up of Q-carbon and nanodiamonds by pulsed laser annealing.” Diamond and Related Materials, 99:UNSP 107531 (2019). 
130. Khodjaniyazova, Sitora; Hanne, Nicholas J.; Cole, Jacqueline H.; Muddiman, David C., “Mass spectrometry imaging (MSI) of fresh bones using infrared matrix-assisted laser desorption electrospray ionization (IR-MALDESI).” Analytical Methods, 11 (46):5929-5938 (2019). 
129. Schenk, Tony; Anspoks, Andris; Jonane, Inga; Ignatans, Reinis; Johnson, Brienne S., Jones, Jacob L.; Tallarida, Massimo; Marini, Carlo; Simonelli, Laura; Hoenicke, Philipp; Richter, Claudia; Mikolajick, Thomas; Schroeder, Uwe, “Local structural investigation of hafnia-zirconia polymorphs in powders and thin films by X-ray absorption spectroscopy.” Acta Materialia, 180:158-169 (2019).
128. Zhang, Hao; Sun, Xiaohang; Hubbe, Martin Allen; Pal, Lokendra, “Flexible and Pressure-Responsive Sensors from Cellulose Fibers Coated with Multiwalled Carbon Nanotubes.” ACS Applied Electronic Materials, 1 (7):1179-1188 (2019). 
127. Kolar, Praveen; Jin, Han, “Baseline characterization data for raw rice husk.” Data In Brief, 25:UNSP 104219 (2019). 
126. Sun, R; Guo, J; Wu, Q; Zhang, ZH; Yang, WY; Guo, J; Shi, MM; Zhang, YH; Kahmann, S; Ye, L; Jiao, XC; Loi, MA; Shen, Q; Ade, H; Tang, WH; Brabec, CJ; Min, J, “A multi-objective optimization-based layer-by-layer blade-coating approach for organic solar cells: rational control of vertical stratification for high performance.” Energy & Environmental Science, 12 (10):3118-3132 (2019).
125. Zhang, NS; Yildirim, E; Zane, CP; Shen, JL; Vinueza, N; Hinks, D; Tonelli, AE; Pasquinelli, MA, “Improved Eco-Friendliness of a Common Flame Retardant through Inclusion Complexation with Cyclodextrins.” ACS Applied Polymer Materials, 1 (10):2768-2777 (2019).
124. Wozniak-Braszak, A; Knitter, M; Markiewicz, E; Ingram, WF; Spontak, RJ, “Effect of Composition on the Molecular Dynamics of Biodegradable Isotactic Polypropylene/Thermoplastic Starch Blends.” ACS Sustainable Chemistry & Engineering, 7 (19):16050-16059 (2019).
123. Coburn, JD; Gebhart, TE; Parish, CM; Unterberg, E; Canik, J; Barsoum, MW; Bourham, M, “Surface Erosion of Plasma-Facing Materials Using an Electrothermal Plasma Source and Ion Beam Micro-Trenches.” Fusion Science and Technology, 75 (7): 621-635 (2019).
122. Zkria, A; Haque, A; Egiza, M; Abubakr, E; Murasawa, K; Yoshitake, T; Narayan, J, “Laser-induced structure transition of diamond-like carbon coated on cemented carbide and formation of reduced graphene oxide.” MRS Communications, 9 (3):910-915 (2019).
121. Yu, YL; Bataller, AW; Younts, R; Yu, YF; Li, GQ; Puretzky, AA; Geohegan, DB; Gundogdu, K; Cao, LY, “Room-Temperature Electron-Hole Liquid in Monolayer MoS2.” ACS Nano, 13 (9):10351-10358 (2019).
120. Haribal, VP; Wang, XJ; Dudek, R; Paulus, C; Turk, B; Gupta, R; Li, F, “Modified Ceria for “Low-Temperature” CO2 Utilization: A Chemical Looping Route to Exploit Industrial Waste Heat.” Advanced Energy Materials, 1901963 (2019).
119. Narayan, J; Gupta, S; Sachan, RJ; Niebroski, A; Pant, P, “Formation of Q-carbon and diamond coatings on WC and steel substrates.” Diamond and Related Materials, 98:UNSP 107515 (2019).
118. Tilly, JC; Pervaje, AK; Inglefield, DL; Detwiler, AT; Santiso, EE; Khan, SA; Spontak, RJ, “Thermomechanical and Free-Volume Properties of Polyester-Polyol Films for Coatings Applications: Role of Diol Composition.” ACS Applied Polymer Materials, 1 (9):2398-2406 (2019).
117. Dong, Q; Ho, CHY; Yu, H; Salehi, A; So, F, “Defect Passivation by Fullerene Derivative in Perovskite Solar Cells with Aluminum-Doped Zinc Oxide as Electron Transporting Layer.” Chemistry of Materials, 31 (17):6833-6840 (2019).
116. Ortiz-Medina, JF; Call, DF, “Electrochemical and Microbiological Characterization of Bioanode Communities Exhibiting Variable Levels of Startup Activity.” Frontiers in Energy Research, 7:UNSP 103 (2019).
115. Firestone, G; Huang, HL; Bochinski, JR; Clarke, LI, “Photothermally-driven thermo-oxidative degradation of low density polyethylene: heterogeneous heating plus a complex reaction leads to homogeneous chemistry.” Nanotechnology, 30 (47):475706 (2019).
114. Gupta, S; Narayan, J, “Non-equilibrium processing of ferromagnetic heavily reduced graphene oxide.” Carbon, 153:663-673 (2019).
113. Warren, PB; Davis, ZG; Fisher, MB, “Parametric control of fiber morphology and tensile mechanics in scaffolds with high aspect ratio geometry produced via melt electrowriting for musculoskeletal soft tissue engineering.” Journal of the Mechanical Behavior of Biomedical Materials, 99:153-160 (2019).
112. Yin, S; Cheng, GM; Richter, G; Gao, HJ; Zhu, Y, “Transition of Deformation Mechanisms in Single-Crystalline Metallic Nanowires.” ACS Nano, 13 (8):9082-9090 (2019).
111. Chapman, BS; Mishra, SR; Tracy, JB, “Direct electrospinning of titania nanofibers with ethanol.” Dalton Transactions, 48 (34):12822-12827 (2019).
110. Montoya, BM; Safavizadeh, S; Gabr, MA, “Enhancement of Coal Ash Compressibility Parameters Using Microbial-Induced Carbonate Precipitation.” Journal of Geotechnical and Geoenvironmental Engineering, 145 (5):04019018 (2019).
109. Ziaei, S; Wu, Q; Fitch, J; Elbadry, M; Zikry, MA, “Channel Cracking and Interfacial Delamination of Indium Tin Oxide (ITO) Nano-Sized Films on Polyethylene Terephthalate (PET) Substrates: Experiments and Modeling.” Experimental Mechanics, 59 (5):703-712 (2019).
108. Cheng, ZH; Yu, YF; Singh, S; Price, K; Noyce, SG; Lin, YC; Cao, LY; Franklin, AD, “Immunity to Contact Scaling in MoS2 Transistors Using in Situ Edge Contacts.” Nano Letters, 19 (8): 5077-5085 (2019).
107. Cheng, GM; Zhang, Y; Chang, TH; Liu, QF; Chen, L; Lu, WD; Zhu, T; Zhu, Y, “In Situ Nano-thermomechanical Experiment Reveals Brittle to Ductile Transition in Silicon Nanowires.” Nano Letters, 19 (8):5327-5334 (2019).
106. Liu, JAC; Gillen, JH; Mishra, SR; Evans, BA; Tracy, JB, “Photothermally and magnetically controlled reconfiguration of polymer composites for soft robotics.” Science Advances, 5 (8):eaaw2897 (2019).
105. Chen, YA; Naidu, SV; Luo, ZR; Chang, CH, “Enhancing optical transmission of multilayer composites using interfacial nanostructures.” Journal of Applied Physics, 126 (6):063101 (2019).
104. Li, Z; Paul, R; Tis, TB; Saville, AC; Hansel, JC; Yu, T; Ristaino, JB; Wei, QS, “Non-invasive plant disease diagnostics enabled by smartphone-based fingerprinting of leaf volatiles.” Nature Plants, 5 (8):856-866 (2019).
103. Rahman, F; Ngaile, G; Hassan, T, “Development of scanning electron microscope-compatible multiaxial miniature testing system.” Measurement Science and Technology, 30 (10):105902 (2019). 
102. Wang, JQ; Yu, J; Zhang, YQ; Zhang, XD; Kahkoska, AR; Chen, GJ; Wang, ZJ; Sun, WJ; Cai, LL; Chen, ZW; Qian, CG; Shen, QD; Khademhosseini, A; Buse, JB; Gu, Z, “Charge-switchable polymeric complex for glucose-responsive insulin delivery in mice and pigs.” Science Advances, 5 (7):eaaw4357 (2019).
101. Yang, S; Chen, SS; Mosconi, E; Fang, YJ; Xiao, X; Wang, CC; Zhou, Y; Yu, ZH; Zhao, JJ; Gao, YL; De Angelis, F; Huang, JS, “Stabilizing halide perovskite surfaces for solar cell operation with wide-bandgap lead oxysalts.” Science, 365 (6452):473-478 (2019).
100. Zhang, Z; Yang, G; Zhou, CZ; Chung, CC; Hany, I, “Optical and electrical properties of all-inorganic Cs2AgBiBr6 double perovskite single crystals.” RSC Advances, 9 (41):23459-23464 (2019).
99. Shanmugapriya, S; Zhu, P; Yan, CY; Asiri, AM; Zhang, XW; Selvan, RK, “Multifunctional High-Performance Electrocatalytic Properties of Nb2O5 Incorporated Carbon Nanofibers as Pt Support Catalyst.” Advanced Materials Interfaces, early access (2019). 
98. Dang, HX; Wang, K; Ghasemi, M; Tang, MC; De Bastiani, M; Aydin, E; Dauzon, E; Barrit, D; Peng, J; Smilgies, DM; De Wolf, S; Amassian, A, “Multi-cation Synergy Suppresses Phase Segregation in Mixed-Halide Perovskites.” Joule, 3 (7):1746-1764 (2019).
97. Rahman, F., Ngaile, G., & Hassan, T., “Scanning electron microscope compatible multiaxial miniature testing system development.” Measurement Science and Technology, 30 (10) (2019). 
96. Tripathi, A; Rutkevicius, M; Bose, A; Rojas, OJ; Khan, SA, “Experimental and Predictive Description of the Morphology of Wet-Spun Fibers.” ACS Applied Polymer Materials, 1 (6):1280-1290 (2019).
95. Nalamati, S; Sharma, M; Deshmukh, P; Kronz, J; Lavelle, R; Snyder, D; Reynolds, CL; Liu, Y; Iyer, S, “A Study of GaAs1-xSbx Axial Nanowires Grown on Monolayer Graphene by Ga-Assisted Molecular Beam Epitaxy for Flexible Near-Infrared Photodetectors.” ACS Applied Nano Materials, 2 (7):4528-4537 (2019).
94. Maruyama, H; Baure, G; Jones, T; Nikkel, J; Moharam, MM; Craciun, V; Mihai, MD; Pantelica, D; Jones, JL; Nino, JC, “Effect of Pt3Pb on the permittivity and conductivity of lead zirconate titanate thin films.” Thin Solid Films, 685:420-427 (2019).
93. Movahed, S; Azad, Z; Dangi, S; Riehn, R, “Direct observation of confinement-induced diffusophoresis.” Nanotechnology, 30 (41):41LT01 (2019).
92. Song, SK; Saare, H; Parsons, GN, “Integrated Isothermal Atomic Layer Deposition/Atomic Layer Etching Supercycles for Area-Selective Deposition of TiO2.” Chemistry of Materials, 31 (13):4793-4804 (2019).
91. Gupta, S; Narayan, J, “Reduced Graphene Oxide/Amorphous Carbon P-N Junctions: Nanosecond Laser Patterning.” ACS Applied Materials & Interfaces, 11 (27):24318-24330 (2019).
90. Safavizadeh, S; Montoya, BM; Gabr, MA, “Microbial induced calcium carbonate precipitation in coal ash.” Geotechnique, 69 (8):727-740 (2019).
89. Nafisi, A; Safavizadeh, S; Montoya, BM, “Influence of Microbe and Enzyme-Induced Treatments on Cemented Sand Shear Response.” Journal of Geotechnical and Geoenvironmental Engineering, 145 (9):06019008 (2019). 
88. Zhang, H; Sun, XH; Hubbe, MA; Pal, L, “Highly conductive carbon nanotubes and flexible cellulose nanofibers composite membranes with semi-interpenetrating networks structure.” Carbohydrate Polymers, 222:UNSP 115013 (2019).
87. Park, J; Yoo, S; Lim, KH; Rojas, OJ; Hubbe, MA; Park, S, “Impact of oxidative carbonization on structure development of loblolly pine-derived biochar investigated by nuclear magnetic resonance spectroscopy and X-ray photoelectron spectroscopy.” Diamond and Related Materials, 96:140-147 (2019).
86. Schweitzer, MH; Schroeter, ER; Cleland, TP; Zheng, WX, “Paleoproteomics of Mesozoic Dinosaurs and Other Mesozoic Fossils.” Proteomics, early access available here (2019).
85. Lim, ZH; Quackenbush, NF; Penn, AN; Chrysler, M; Bowden, M; Zhu, Z; Ablett, JM; Lee, TL; LeBeau, JM; Woicik, JC; Sushko, PV; Chambers, SA; Ngai, JH, “Charge Transfer and Built-in Electric Fields between a Crystalline Oxide and Silicon.” Physical Review Letters, 123 (2):026805 (2019).
84. Sachan, R; Hachtel, JA; Bhaumik, A; Moatti, A; Prater, J; Idrobo, JC; Narayan, J, “Emergence of shallow energy levels in B-doped Q-carbon: A high-temperature superconductor.” Acta Materialia, 174:153-159 (2019).
83. Zheng, C; Reese, ER; Field, KG; Marquis, E; Maloy, SA; Kaoumi, D, “Microstructure response of ferritic/martensitic steel HT9 after neutron irradiation: effect of dose.” Journal of Nuclear Materials, 523:421-433 (2019).
82. Williams, TN; Freeman, HS, “Analysis of keratin films as screening tools for predicting the efficacy of potential hair dyes.” Coloration Technology, 135:253-266 (2019).
81. Yu, JC; Zhang, YQ; Wang, JQ; Wen, D; Kahkoska, AR; Buse, JB; Gu, Z, “Glucose-responsive oral insulin delivery for postprandial glycemic regulation.” Nano Research, 12 (7):1539-1545 (2019).
80. Abdel-Latif, K; Epps, RW; Kerr, CB; Papa, CM; Castellano, FN; Abolhasani, M, “Facile Room-Temperature Anion Exchange Reactions of Inorganic Perovskite Quantum Dots Enabled by a Modular Microfluidic Platform.” Advanced Functional Materials, 29 (23):1900712 (2019).
79. Sargolzaeiaval, Y; Ramesh, VP; Neumann, TV; Miles, R; Dickey, MD; Ozturk, MC, “High Thermal Conductivity Silicone Elastomer Doped with Graphene Nanoplatelets and Eutectic GaIn Liquid Metal Alloy.” ECS Journal of Solid State Science and Technology, 8 (6):P357-P362 (2019).
78. Yan, JQ; Spontak, RJ, “Toughening Poly(lactic acid) with Thermoplastic Elastomers Modified by Thiol-ene Click Chemistry.” ACS Sustainable Chemistry & Engineering, 7 (12):10830-10839 (2019).
77. Haque, A; Sachan, R; Narayan, J, “Synthesis of diamond nanostructures from carbon nanotube and formation of diamond-CNT hybrid structures.” Carbon, 150:388-395 (2019).
76. Coburn, J; Unterberg, E; Barton, J; Rudakov, D; Bykov, I; Parish, CM; Wilcox, R; Lasnier, C; Abrams, T; Watkins, J; Hillis, DL; Bourham, M, “Erosion characterization of SiC and Ti3SiC2 on DIII-D using focused ion beam micro-trenches.” Nuclear Materials and Energy, 19:316-323 (2019).
75. Mittmann, T; Materano, M; Lomenzo, PD; Park, MH; Stolichnov, I; Cavalieri, M; Zhou, CZ; Chung, CC; Jones, JL; Szyjka, T; Muller, M; Kersch, A; Mikolajick, T; Schroeder, U, “Origin of Ferroelectric Phase in Undoped HfO2 Films Deposited by Sputtering.” Advanced Materials Interfaces, 6 (11):1900042 (2019).
74. Glasscott, MW; Pendergast, AD; Goines, S; Bishop, AR; Hoang, AT; Renault, C; Dick, JE, “Electrosynthesis of high-entropy metallic glass nanoparticles for designer, multi-functional electrocatalysis.” Nature Communications, 10:2650 (2019).
73. Cheng, ZH; Abuzaid, H; Yu, YF; Zhang, F; Li, YL; Noyce, SG; Williams, NX; Lin, YC; Doherty, JL; Tao, CG; Cao, LY; Franklin, AD, “Convergent ion beam alteration of 2D materials and metal-2D interfaces.” 2D Materials, 6 (3):034005 (2019).
72. Zhang, XA; Chen, IT; Chang, CH, “Recent progress in near-field nanolithography using light interactions with colloidal particles: from nanospheres to three-dimensional nanostructures.” Nanotechnology, 30 (35):352002 (2019).
71. Shi, ZZ; Steinhardt, W; Graf, D; Corboz, P; Weickert, F; Harrison, N; Jaime, M; Marjerrison, C; Dabkowska, HA; Mila, F; Haravifard, S, “
Emergent bound states and impurity pairs in chemically doped Shastry-Sutherland system.” Nature Communications, 10:2439 (2019).
70. Abdelhamid, M; Reynolds, JG; El-Masry, NA; Bedair, SM, “
Growth and characterization of InxGa1-xN (0 < x < 0.16) templates for controlled emissions from MQW.” Journal of Crystal Growth, 520:18-26 (2019).
69. Bhaumik, A; Narayan, J, “Structure-property correlations in phase-pure B-doped Q-carbon high-temperature superconductor with a record T-c=55 K.” Nanoscale, 11 (18):9141-9154 (2019).
68. Yan, JJ; Zhang, XD; Liu, Y; Ye, YQ; Yu, JC; Chen, Q; Wang, JQ; Zhang, YQ; Hu, QY; Kang, Y; Yang, M; Gu, Z, “Shape-controlled synthesis of liquid metal nanodroplets for photothermal therapy.” Nano Research, 12 (6):1313-1320 (2019).
67. S Koohfar, AB Georgescu, A Penn, JM LeBeau, E Arenholz, DP Kumah, “Confinement of magnetism in atomically-thin La0. 7Sr0. 3CrO3/La0. 7Sr0. 3MnO3 heterostructures.” NPJ Quantum Materials, 4:25 (2019).
66. Luo, ZR; Evans, BA; Chang, CH, “Magnetically Actuated Dynamic Iridescence Inspired by the Neon Tetra.” ACS Nano, 13 (4):4657-4666 (2019).
65. Cho, SJ; Chung, CC; Podowitz-Thomas, S; Jones, JL, “Understanding the lithium deficient LixNiyMnzCo1-y-zO2 (x < 1) cathode materials structure.” Materials Chemistry and Physics, 228:32-36 (2019).
64. Qu, JG; He, NF; Patil, SV; Wang, YA; Banerjee, D; Gao, W, “Screen Printing of Graphene Oxide Patterns onto Viscose Nonwovens with Tunable Penetration Depth and Electrical Conductivity.” ACS Applied Materials & Interfaces, 11 (16):14944-14951 (2019).
63. Kelley, KP; Runnerstrom, EL; Sachet, E; Shelton, CT; Grimley, ED; Klump, A; LeBeau, JM; Sitar, Z; Suen, JY; Padilla, WJ; Maria, JP, “Multiple Epsilon-Near-Zero Resonances in Multilayered Cadmium Oxide: Designing Metamaterial-Like Optical Properties in Monolithic Materials.” ACS Photonics, 6 (5):1139-1145 (2019).
62. Tian, X; Dudek, RB; Gao, YF; Zhao, HB; Li, FX, “Redox oxidative cracking of n-hexane with Fe-substituted barium hexaaluminates as redox catalysts.” Catalysis Science & Technology, 9 (9):2211-2220 (2019).
61. Zhu, YQ; Gadisa, A; Peng, ZX; Ghasemi, M; Ye, L; Xu, Z; Zhao, SL; Ade, H, “Rational Strategy to Stabilize an Unstable High-Efficiency Binary Nonfullerene Organic Solar Cells with a Third Component.” Advanced Energy Materials, 9 (20):1900376 (2019).
60. Ghasemi, M; Hu, HW; Peng, ZX; Rech, JJ; Angunawela, I; Carpenter, JH; Stuard, SJ; Wadsworth, A; McCulloch, I; You, W; Ade, H, “Delineation of Thermodynamic and Kinetic Factors that Control Stability in Non-fullerene Organic Solar Cells.” Joule, 3 (5):1328-1348 (2019).
59. Bradesko, A; Fulanovic, L; Vrabelj, M; Otonicar, M; Ursic, H; Henriques, A; Chung, CC; Jones, JL; Malic, B; Kutnjak, Z; Rojac, T, “Electrocaloric fatigue of lead magnesium niobate mediated by an electric-field-induced phase transformation.” Acta Materialia, 169: 275-283 (2019).
58. Wan, HT; Luo, CT; Chang, WY; Yamashita, Y; Jian, XN, “Effect of poling temperature on piezoelectric and dielectric properties of 0.7Pb(Mg1/3Nb2/3)O-3-0.3PbTiO(3) single crystals under alternating current poling.” Applied Physics Letters, 114, (17):172901 (2019).
57. Yin, S; Cheng, GM; Chang, TH; Richter, G; Zhu, Y; Gao, HJ, “Hydrogen embrittlement in metallic nanowires.” Nature Communications, 10:2004 (2019).
56. Ye, L; Xiong, Y; Chen, Z; Zhang, QQ; Fei, ZP; Henry, R; Heeney, M; O’Connor, BT; You, W; Ade, H, “Sequential Deposition of Organic Films with Eco-Compatible Solvents Improves Performance and Enables Over 12%-Efficiency Nonfullerene Solar Cells.” Advanced Materials, 31 (17):1808153 (2019).
55. Shekhawat, A; Walters, G; Chung, CC; Garcia, R; Liu, Y; Jones, J; Nishida, T; Moghaddam, S, “Effect of furnace annealing on the ferroelectricity of Hf0.5 Zr0.5O2 thin films.” Thin Solid Films, 677:142-149 (2019).
54. Reineck, P; Lin, YL; Gibson, BC; Dickey, MD; Greentree, AD; Maksymov, IS, “UV plasmonic properties of colloidal liquid-metal eutectic gallium-indium alloy nanoparticles.” Scientific Reports, 9:5345 (2019).
53. Yusuf, S; Neal, L; Bao, ZH; Wu, ZL; Li, FX, “Effects of Sodium and Tungsten Promoters on Mg6MnO8-Based Core-Shell Redox Catalysts for Chemical Looping-Oxidative Dehydrogenation of Ethane.” ACS Catalysis, 9 (4):3174-3186 (2019).
52. Do, J; Montoya, BM; Gabr, MA, “Debonding of microbially induced carbonate precipitation-stabilized sand by shearing and erosion.” Geomechanics and Engineering, 17 (5):429-438 (2019).
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