Recent Publications by staff associated with the Nanocentre

2021

[1] M. R. Ward, R. W. Mitchell, E. D. Boyes, and P. L. Gai, Visualization of Atomic Scale Reaction Dynamics of Supported Nanocatalysts during Oxidation and Ammonia Synthesis Using In-Situ Environmental (Scanning) Transmission Electron Microscopy, J. Energy Chem. 57, 281 (2021).

[2] W. Frost, T. Seki, T. Kubota, R. Ramos, E. Saitoh, K. Takanashi, and A. Hirohata, Evaluation of Edge Domains in Giant Magnetoresistive Junctions, Appl. Phys. Lett. 118, (2021).

[3] K. Elphick, A. Yamaguchi, A. Otsuki, N. L. Hayagan, and A. Hirohata, Non-Destructive Imaging on Synthesised Nanoparticles, Materials (Basel). 14, 1 (2021).

[4] K. Elphick, W. Frost, M. Samiepour, T. Kubota, K. Takanashi, H. Sukegawa, S. Mitani, and A. Hirohata, Heusler Alloys for Spintronic Devices: Review on Recent Development and Future Perspectives, Sci. Technol. Adv. Mater. 22, 235 (2021).

[5] P. D. Bentley, T. W. Bird, A. P. J. Graham, O. Fossberg, S. P. Tear, and A. Pratt, Formation of Quasi-Free-Standing Graphene on SiC(0001) through Intercalation of Erbium, AIP Adv. 11, (2021).

[6] V. E. Lembessis, K. Koksal, J. Yuan, and M. Babiker, Chirality-Enabled Optical Dipole Potential Energy for Two-Level Atoms, Phys. Rev. A 103, (2021).

[7] K. Koksal, M. Babiker, V. E. Lembessis, and J. Yuan, Chirality and Helicity of Linearly-Polarised Laguerre-Gaussian Beams of Small Beam Waists, Opt. Commun. 490, (2021).

[8] B. D. Stewart, S. R. Jenkins, C. Boig, C. Sinfield, K. Kennington, A. R. Brand, W. Lart, and R. Kröger, Metal Pollution as a Potential Threat to Shell Strength and Survival in Marine Bivalves, Sci. Total Environ. 755, (2021).

[9] K. Kudo, S. Yamada, M. Yafuso, T. Kimura, V. K. Lazarov, and K. Hamaya, Half-Metallic Nature of the Low-Temperature Grown Co<inf>2</Inf>MnSi Films on SrTiO<inf>3</Inf>, J. Alloys Compd. 854, (2021).

[10] K. Nawa, D. Kepaptsoglou, A. Ghasemi, P. Hasnip, G. Bárcena-González, G. Nicotra, P. L. Galindo, Q. M. Ramasse, K. Nakamura, S. C. Speller, T. Hesjedal, and V. K. Lazarov, Modification of the van Der Waals Interaction at the Bi2Te3 and Ge(111) Interface, Phys. Rev. Mater. 5, (2021).

[11] Y. Liu, X. Han, B. Kuerbanjiang, V. K. Lazarov, and L. Šiller, Effect of Sodium Bicarbonate Solution on Methyltrimethoxysilane-Derived Silica Aerogels Dried at Ambient Pressure, Front. Chem. Sci. Eng. (2021).

[12] S. Yamada, Y. Teramoto, D. Matsumi, D. Kepaptsoglou, I. Azaceta, T. Murata, K. Kudo, V. K. Lazarov, T. Taniyama, and K. Hamaya, Electric Field Tunable Anisotropic Magnetoresistance Effect in an Epitaxial Co2FeSi/BaTi O3 Interfacial Multiferroic System, Phys. Rev. Mater. 5, (2021).

[13] M. Savastano, M. Passaponti, W. Giurlani, L. Lari, N. Calisi, E. Delgado-Pinar, E. S. Serrano, E. Garcia-España, M. Innocenti, V. K. Lazarov, and A. Bianchi, Linear, Tripodal, Macrocyclic: Ligand Geometry and ORR Activity of Supported Pd(II) Complexes, Inorganica Chim. Acta 518, (2021).

2020

[1] E. D. Boyes, A. P. Lagrow, M. R. Ward, T. E. Martin, and P. L. Gai, Visualizing Single Atom Dynamics in Heterogeneous Catalysis Using Analytical in Situ Environmental Scanning Transmission Electron Microscopy, Philos. Trans. R. Soc. A Math. Phys. Eng. Sci. 378, (2020).

[2] P. L. Gai, E. D. Boyes, R. Brydson, and R. Catlow, Dynamic in Situ Microscopy Relating Structure and Function, Philos. Trans. R. Soc. A Math. Phys. Eng. Sci. 378, (2020).

[3] T. E. Martin, R. W. Mitchell, E. D. Boyes, and P. L. Gai, Atom-by-Atom Analysis of Sintering Dynamics and Stability of Pt Nanoparticle Catalysts in Chemical Reactions, Philos. Trans. R. Soc. A Math. Phys. Eng. Sci. 378, (2020).

[4] E. D. Boyes, A. P. Lagrow, M. R. Ward, R. W. Mitchell, and P. L. Gai, Single Atom Dynamics in Chemical Reactions, Acc. Chem. Res. (2020).

[5] K. Kunimatsu, T. Tsuchiya, T. Roy, K. Elphick, T. Ichinose, M. Tsujikawa, A. Hirohata, M. Shirai, and S. Mizukami, Magnetic Tunnel Junctions with Metastable Bcc Co<inf>3</Inf>Mn Electrodes, Appl. Phys. Express 13, (2020).

[6] E. Jackson, Y. Wu, W. Frost, J.-Y. Kim, M. Samiepour, K. Elphick, M. Sun, T. Kubota, K. Takanashi, T. Ichinose, S. Mizukami, and A. Hirohata, Non-Destructive Imaging for Quality Assurance of Magnetoresistive Random-Access Memory Junctions, J. Phys. D. Appl. Phys. 53, (2020).

[6] K. O’Grady, J. Sinclair, K. Elphick, R. Carpenter, G. Vallejo-Fernandez, M. I. J. Probert, and A. Hirohata, Anisotropy in Antiferromagnets, J. Appl. Phys. 128, (2020).

[7] Y. Onodera, K. Elphick, T. Kanemura, T. Roy, T. Tsuchiya, M. Tsujikawa, K. Yoshida, Y. Nagai, S. Mizukami, A. Hirohata, A. Hirohata, and M. Shirai, Experimental Inspection of a Computationally-Designed NiCrMnSi Heusler Alloy with High Curie Temperature, Jpn. J. Appl. Phys. 59, (2020).

[8] A. Hirohata, K. Yamada, Y. Nakatani, L. Prejbeanu, B. Diény, P. Pirro, and B. Hillebrands, Review on Spintronics: Principles and Device Applications, J. Magn. Magn. Mater. 509, (2020).

[9] E. Y. Vedmedenko, R. K. Kawakami, D. D. Sheka, P. Gambardella, A. Kirilyuk, A. Hirohata, C. Binek, O. Chubykalo-Fesenko, S. Sanvito, B. J. Kirby, C.-Y. You, and A. Berger, The 2020 Magnetism Roadmap, J. Phys. D. Appl. Phys. 53, (2020).

[10] K. O’Grady, J. Sinclair, K. Elphick, R. Carpenter, G. Vallejo-Fernandez, M. I. J. Probert, and A. Hirohata, Anisotropy in Antiferromagnets, J. Appl. Phys. 128, (2020).

[11] L. Yang, Y. Yan, Y. Chen, Y. Chen, B. Liu, Z. Chen, X. Lu, J. Wu, L. He, X. Ruan, B. Liu, and Y. Xu, Large Anisotropy of Magnetic Damping in Ultrathin Epitaxial Fe/GaAs (001) Film, J. Phys. D. Appl. Phys. 53, (2020).

[12] X. Zheng, J. Wang, G. Li, X. Lu, W. Li, Y. Wang, L. Chen, H. Yin, J. Wu, and Y. Xu, Paradigm of Magnetic Domain Wall-Based in-Memory Computing, ACS Appl. Electron. Mater. 2, 2375 (2020).

[13] A. Suri, A. Pratt, S. Tear, C. Walker, C. Kincal, U. Kamber, O. Gurlu, and M. El-Gomati, Analysis and Detection of Low-Energy Electrons in Scanning Electron Microscopes Using a Bessel Box Electron Energy Analyser, J. Electron Spectros. Relat. Phenomena 241, (2020).

[14] A. Bellissimo, C. G. H. Walker, T. Bahler, T. Michlmayr, U. Ramsperger, D. Pescia, A. Suri, A. Pratt, S. Tear, and M. M. El-Gomati, Improving the Detection and the Analysis of Energy Filtered and Spin Polarised Electrons with the Implementation of a Miniature Energy Analyser, in 33rd International Vacuum Nanoelectronics Conference, IVNC 2020 (2020).

[15] A. Suri, A. Pratt, S. Tear, C. Walker, and M. El-Gomati, Next Generation Secondary Electron Detector with Energy Analysis Capability for SEM, J. Microsc. 279, 207 (2020).

[16] S. D. Quinn, J. Juan-Colas, L. Dresser, K. Morris, H. Lagadou, R. H. Ward, A. Burns, S. Tear, S. Johnson, and M. C. Leake, The Mechanism of Vesicle Solubilization by the Detergent Sodium Dodecyl Sulfate, Langmuir 36, 11499 (2020).

[17] K. Koksal, V. E. Lembessis, J. Yuan, and M. Babiker, Atoms in Axially Shifted Tightly Focused Counter-Propagating Beams: The Role of the Gouy and Curvature Phases, J. Opt. Soc. Am. B Opt. Phys. 37, 2570 (2020).

[18] K. Koksal, V. E. Lembessis, J. Yuan, and M. Babiker, Atoms in Axially Shifted Tightly Focused Counter-Propagating Beams: The Role of the Gouy and Curvature Phases, J. Opt. Soc. Am. B Opt. Phys. 37, 2570 (2020).

[19] D. Evans, W. R. Gray, J. W. B. Rae, R. Greenop, P. B. Webb, K. Penkman, R. Kröger, and N. Allison, Trace and Major Element Incorporation into Amorphous Calcium Carbonate (ACC) Precipitated from Seawater, Geochim. Cosmochim. Acta 290, 293 (2020).

[20] C. Kellock, C. Cole, K. Penkman, D. Evans, R. Kröger, C. Hintz, K. Hintz, A. Finch, and N. Allison, The Role of Aspartic Acid in Reducing Coral Calcification under Ocean Acidification Conditions, Sci. Rep. 10, (2020).

[21] F. Sarcan, S. Orchard, B. Kuerbanjiang, A. Skeparovski, V. K. Lazarov, and A. Erol, Ultraviolet Photodetector Based on Mg<inf>0.67</Inf>Ni<inf>0.33</Inf>O Thin Film on SrTiO<inf>3</Inf>, Phys. Status Solidi - Rapid Res. Lett. 14, (2020).

[22] M. Passaponti, L. Lari, M. Bonechi, F. Bruni, W. Giurlani, G. Sciortino, L. Rosi, L. Fabbri, M. Vizza, V. K. Lazarov, C. Fontanesi, and M. Innocenti, Optimisation Study of Co Deposition on Chars from MAP of Waste Tyres as Green Electrodes in ORR for Alkaline Fuel Cells, Energies 13, (2020).

[23] L. Lari, S. Steinhauer, and V. K. Lazarov, In Situ TEM Oxidation Study of Fe Thin-Film Transformation to Single-Crystal Magnetite Nanoparticles, J. Mater. Sci. 55, 12897 (2020).

[24] G. A. Naydenov, P. J. Hasnip, V. K. Lazarov, and M. I. J. Probert, Effective Modelling of the Seebeck Coefficient of Fe<inf>2</Inf>VAl, J. Phys. Condens. Matter 32, (2020).

[25] R. Moreno, S. Poyser, D. Meilak, A. Meo, S. Jenkins, V. K. Lazarov, G. Vallejo-Fernandez, S. Majetich, and R. F. L. Evans, The Role of Faceting and Elongation on the Magnetic Anisotropy of Magnetite Fe<inf>3</Inf>O<inf>4</Inf> Nanocrystals, Sci. Rep. 10, (2020).

[26] Y. Gong, Z. Yang, L. Lari, I. Azaceta, V. K. Lazarov, J. Zhang, X. Xu, Q. Cheng, and K. H. L. Zhang, Optimizing the Electronic Structure of In<inf>2</Inf>O<inf>3</Inf>through Mg Doping for NiO/In<inf>2</Inf>O<inf>3</Inf>p-n Heterojunction Diodes, ACS Appl. Mater. Interfaces 12, 53446 (2020).

[27] J. A. Quirk, V. K. Lazarov, and K. P. McKenna, First-Principles Modeling of Oxygen-Deficient Anatase TiO<inf>2</Inf> Nanoparticles, J. Phys. Chem. C 124, 23637 (2020).

[28] G. Duffett, R. Wirth, M. Rayer, E. R. Martins, and T. F. Krauss, Metal-Insulator-Metal Nanoresonators - Strongly Confined Modes for High Surface Sensitivity, Nanophotonics 9, 1547 (2020).

[29] G. S. Arruda, J. Li, A. Martins, K. Li, T. F. Krauss, and E. R. Martins, Reducing the Surface Area of Black Silicon by Optically Equivalent Structures, IEEE J. Photovoltaics 10, 41 (2020).

[30] A. Kenaan, K. Li, I. Barth, S. Johnson, J. Song, and T. F. Krauss, Guided Mode Resonance Sensor for the Parallel Detection of Multiple Protein Biomarkers in Human Urine with High Sensitivity, Biosens. Bioelectron. 153, (2020).

[31] A. Drayton, K. Li, M. Simmons, C. Reardon, and T. F. Krauss, Low-Cost and Portable Photonic Immuno-Sensor Based on Guided Mode Resonance, in MicroTAS 2020 - 24th International Conference on Miniaturized Systems for Chemistry and Life Sciences (2020), pp. 561–562.

[32] K. Themistocleous, D. Hadjimitsis, G. Schreier, T. Krauss, and H. Kontoes, The Contribution of the EXCELSIOR Project for Cultural Heritage, in Proceedings of SPIE - The International Society for Optical Engineering, Vol. 11534 (2020).

[33] M. A. Gaafar, D. Jalas, L. O’faolain, J. Li, T. F. Krauss, A. Y. Petrov, and M. Eich, Optical Reflection from a Free Carrier-Induced Front in a Slow Light Waveguide, in Proceedings of SPIE - The International Society for Optical Engineering, Vol. 11285 (2020).

[34] F. Sarcan, Y. Wang, T. F. Krauss, T. Erucar, and A. Erol, Dilute Nitride Resonant-Cavity Light Emitting Diode, Opt. Laser Technol. 122, (2020).

[35] H. Sayed, T. F. Krauss, and A. H. Aly, Versatile Photonic Band Gap Materials for Water Desalination, Optik (Stuttg). 219, (2020).

[36] Y. Wang, C. P. Reardon, N. Read, S. Thorpe, A. Evans, N. Todd, M. Van Der Woude, and T. F. Krauss, Attachment and Antibiotic Response of Early-Stage Biofilms Studied Using Resonant Hyperspectral Imaging, Npj Biofilms Microbiomes 6, (2020).

[37] K. Li, R. Gupta, A. Drayton, I. Barth, D. Conteduca, C. Reardon, K. Dholakia, and T. F. Krauss, Extended Kalman Filtering Projection Method to Reduce the 3σ Noise Value of Optical Biosensors, ACS Sensors 5, 3474 (2020).

[38] L. S. Fohrmann, G. Sommer, G. Pitruzzello, T. F. Krauss, A. Y. Petrov, and M. Eich, Erratum: Integrating Cell on Chip - Novel Waveguide Platform Employing Ultra-Long Optical Paths (APL Photonics (2017) 2:9 (096102) DOI: 10.1063/1.5001486), APL Photonics 5, (2020).

[39] L. M. Miller, R. Herman, I. Gyulev, T. F. Krauss, G. H. Thomas, and A.-K. Duhme-Klair, Synthesis and Biochemical Evaluation of Cephalosporin Analogues Equipped with Chemical Tethers, RSC Adv. 10, 36485 (2020).

[40] G. Pitruzzello, D. Conteduca, and T. F. Krauss, Nanophotonics for Bacterial Detection and Antimicrobial Susceptibility Testing, Nanophotonics 9, 4447 (2020).

2019

[1] K. Yoshida, X. Zhang, Y. Shimada, Y. Nagai, T. Hiroyama, N. Tanaka, L. Lari, M. R. Ward, E. D. Boyes, and P. L. Gai, Influence of Gas Environment and Heating on Atomic Structures of Platinum Nanoparticle Catalysts for Proton-Exchange Membrane Fuel Cells, Nanotechnology 30, (2019).

[2] A. P. Lagrow, D. C. Lloyd, D. Schebarchov, P. L. Gai, and E. D. Boyes, In Situ Visualization of Site-Dependent Reaction Kinetics in Shape-Controlled Nanoparticles: Corners vs Edges, J. Phys. Chem. C 123, 14746 (2019).

[3] T. Ogasawara, J.-Y. Kim, Y. Ando, and A. Hirohata, Structural and Antiferromagnetic Characterization of Noncollinear D0<inf>19</Inf> Mn<inf>3</Inf>Ge Polycrystalline Film, J. Magn. Magn. Mater. 473, 7 (2019).

[4] T. Tsuchiya, T. Roy, K. Elphick, J. Okabayashi, L. Bainsla, T. Ichinose, K. Z. Suzuki, M. Tsujikawa, M. Shirai, A. Hirohata, A. Hirohata, and S. Mizukami, Magnetic Tunnel Junctions with a B2-Ordered CoFeCrAl Equiatomic Heusler Alloy, Phys. Rev. Mater. 3, (2019).

[5] W. Frost, M. Samiepour, and A. Hirohata, Low-Temperature Crystallisation of Heusler Alloy Films with Perpendicular Magnetic Anisotropy, J. Magn. Magn. Mater. 484, 100 (2019).

[6] K. Kunimatsu, T. Tsuchiya, K. Elphick, T. Ichinose, K. Z. Suzuki, A. Hirohata, and S. Mizukami, Fabrication of Magnetic Tunnel Junctions with a Metastable Bcc Co<inf>3</Inf>Mn Disordered Alloy as a Bottom Electrode, Jpn. J. Appl. Phys. 58, (2019).

[7] T. Ogasawara, E. Jackson, M. Tsunoda, Y. Ando, and A. Hirohata, In-Plane and Perpendicular Exchange Bias Effect Induced by an Antiferromagnetic D0 <inf>19</Inf> Mn <inf>2</Inf> FeGa Thin Film, J. Magn. Magn. Mater. 484, 307 (2019).

[8] J. Sinclair, A. Hirohata, G. Vallejo-Fernandez, M. Meinert, and K. O’Grady, Thermal Stability of Exchange Bias Systems Based on MnN, J. Magn. Magn. Mater. 476, 278 (2019).

[9] A. Hirohata, M. Samiepour, and M. Corbetta, Magnetic Force Microscopy for Magnetic Recording and Devices (2019).

[10] A. Yamaguchi, I. Okada, I. Sakurai, H. Izumi, M. Ishihara, T. Fukuoka, S. Suzuki, K. Elphick, E. Jackson, A. Hirohata, A. Hirohata, and Y. Utsumi, Controllability of Cupric Particle Synthesis by Linear Alcohol Chain Number as Additive and PH Control in Cupric Acetate Solution Using X-Ray Radiolysis, J. Synchrotron Radiat. 26, 1986 (2019).

[11] J. Sinclair, A. Hirohata, G. Vallejo-Fernandez, M. Meinert, and K. O’Grady, Thermal Stability of Exchange Bias Systems Based on MnN, J. Magn. Magn. Mater. 476, 278 (2019).

[12] K. Elphick, K. O’Grady, and G. Vallejo-Fernandez, Perpendicular Exchange Bias in (Co/Pt)n Multilayers, IEEE Trans. Magn. 55, (2019).

[13] Z. Nie, I. C. E. Turcu, Y. Li, X. Zhang, L. He, J. Tu, Z. Ni, H. Xu, Y. Chen, X. Ruan, R. Zhang, and Y. Xu, Spin-ARPES EUV Beamline for Ultrafast Materials Research and Development, Appl. Sci. 9, (2019).

[14] B. Liu, W. Niu, Y. Chen, X. Ruan, Z. Tang, X. Wang, W. Liu, L. He, Y. Li, J. Wu, R. Zhang, and Y. Xu, Ultrafast Orbital-Oriented Control of Magnetization in Half-Metallic La <inf>0.7</Inf> Sr <inf>0.3</Inf> MnO <inf>3</Inf> Films, Adv. Mater. 31, (2019).

[15] Z. Chen, X. Ruan, B. Liu, L. Yang, J. Wu, C. Gao, H. Meng, L. He, R. Zhang, and Y. Xu, Component Manipulated Magnetic Anisotropy and Damping in Heusler-like Compound Co <inf>2+x</Inf> Fe <inf>1-X</Inf> Al, J. Phys. Condens. Matter 31, (2019).

[16] X. Lu, L. J. Atkinson, B. Kuerbanjiang, B. Liu, G. Li, Y. Wang, J. Wang, X. Ruan, J. Wu, R. F. L. Evans, R. W. Chantrell, and Y. Xu, Enhancement of Intrinsic Magnetic Damping in Defect-Free Epitaxial Fe<inf>3</Inf>O<inf>4</Inf> Thin Films, Appl. Phys. Lett. 114, (2019).

[17] B. Liu, L. Yang, X. Ruan, J.-W. Cai, L. He, H. Meng, J. Wu, and Y. Xu, Femtosecond Laser-Heating Effect on the Magnetization Dynamics in Perpendicularly Magnetized Ta/CoFeB/MgO Film, New J. Phys. 21, (2019).

[18] D. P. Pattnaik, R. P. Beardsley, C. Love, S. A. Cavill, K. W. Edmonds, and A. W. Rushforth, Multilevel Information Storage Using Magnetoelastic Layer Stacks, Sci. Rep. 9, (2019).

[19] I. Azaceta, I. W. Rae, and S. A. Cavill, Effect of Strain Gradient Symmetry on Vortex Core Translation, J. Phys. D. Appl. Phys. 52, (2019).

[20] J. Yuan, Vorticity Induced by Chiral Plasmonic Fields, Nat. Mater. 18, 533 (2019).

[21] G. Thirunavukkarasu, M. Mousley, M. Babiker, and J. Yuan, Even-Odd Effect in Higher-Order Holographic Production of Electron Vortex Beams with Nontrivial Radial Structures, Phys. Rev. A 99, (2019).

[22] S.-T. Wang, Y. Lin, M. H. Nielsen, C. Y. Song, M. R. Thomas, C. D. Spicer, R. Kröger, P. Ercius, S. Aloni, and M. M. Stevens, Shape-Controlled Synthesis and: In Situ Characterisation of Anisotropic Au Nanomaterials Using Liquid Cell Transmission Electron Microscopy, Nanoscale 11, 16801 (2019).

[23] D. Evans, P. B. Webb, K. Penkman, R. Kröger, and N. Allison, The Characteristics and Biological Relevance of Inorganic Amorphous Calcium Carbonate (ACC) Precipitated from Seawater, Cryst. Growth Des. 19, 4300 (2019).

[24] A. Rao, T. Roncal-Herrero, E. Schmid, M. Drechsler, M. Scheffner, D. Gebauer, R. Kröger, and H. Cölfen, On Biomineralization: Enzymes Switch on Mesocrystal Assembly, ACS Cent. Sci. 5, 357 (2019).

[25] A. Radini, M. Tromp, A. Beach, E. Tong, C. Speller, M. McCormick, J. V. Dudgeon, M. J. Collins, F. Rühli, R. Kröger, and C. Warinner, Medieval Women’s Early Involvement in Manuscript Production Suggested by Lapis Lazuli Identification in Dental Calculus, Anal. Linguist. e Lett. 26, (2019).

[26] X. Lu, L. J. Atkinson, B. Kuerbanjiang, B. Liu, G. Li, Y. Wang, J. Wang, X. Ruan, J. Wu, R. F. L. Evans, R. W. Chantrell, and Y. Xu, Enhancement of Intrinsic Magnetic Damping in Defect-Free Epitaxial Fe<inf>3</Inf>O<inf>4</Inf> Thin Films, Appl. Phys. Lett. 114, (2019).

[27] M. Tsukahara, M. Yamada, T. Naito, S. Yamada, K. Sawano, V. K. Lazarov, and K. Hamaya, Room-Temperature Local Magnetoresistance Effect in n-Ge Devices with Low-Resistive Schottky-Tunnel Contacts, Appl. Phys. Express 12, (2019).

[28] G. Bárcena-González, M. P. Guerrero-Lebrero, E. Guerrero, A. Yañez, B. Nuñez-Moraleda, D. Kepaptsoglou, V. K. Lazarov, and P. L. Galindo, HAADF-STEM Image Resolution Enhancement Using High-Quality Image Reconstruction Techniques: Case of the Fe3O<inf>4</Inf>(111) Surface, Microsc. Microanal. 25, 1297 (2019).

[29] L. B. Duffy, N.-J. Steinke, D. M. Burn, A. Frisk, L. Lari, B. Kuerbanjiang, V. K. Lazarov, G. Van Der Laan, S. Langridge, and T. Hesjedal, Magnetic Profile of Proximity-Coupled (Dy,Bi)2Te3/(Cr,Sb)2Te3 Topological Insulator Heterostructures, Phys. Rev. B 100, (2019).

[30] J. A. Quirk, V. K. Lazarov, and K. P. McKenna, Electronic Properties of {112} and {110} Twin Boundaries in Anatase TiO<inf>2</Inf>, Adv. Theory Simulations 2, (2019).

[31] G. A. Naydenov, P. J. Hasnip, V. K. Lazarov, and M. I. J. Probert, Huge Power Factor in P-Type Half-Heusler Alloys NbFeSb and TaFeSb, JPhys Mater. 2, (2019).

[32] H. Liang, A. Martins, B.-H. V. Borges, J. Zhou, E. R. Martins, J. Li, and T. F. Krauss, High Performance Metalenses: Numerical Aperture, Aberrations, Chromaticity, and Trade-Offs, Optica 6, 1461 (2019).

[33] F. Dell’Olio, D. Conteduca, M. Cito, G. Brunetti, C. Ciminelli, T. F. Krauss, and M. N. Armenise, Electro-Photonic Chip-Scale Microsystem for Label-Free Single Bacteria Monitoring, Vol. 550 (2019).

[34] A. Drayton, I. Barth, and T. F. Krauss, Guided Mode Resonances and Photonic Crystals for Biosensing and Imaging, Vol. 100 (2019).

[35] M. A. Gaafar, D. Jalas, L. O’Faolain, J. Li, T. F. Krauss, A. Y. Petrov, and M. Eich, Front-Induced Intraband Indirect Photonic Transition in Slow-Light Waveguide, in Proceedings of SPIE - The International Society for Optical Engineering, Vol. 10921 (2019).

[36] H. Fang, J. Liu, Q. Lin, R. Su, Y. Wei, T. F. Krauss, J. Li, Y. Wang, and X. Wang, Laser-Like Emission from a Sandwiched MoTe<inf>2</Inf> Heterostructure on a Silicon Single-Mode Resonator, Adv. Opt. Mater. 7, (2019).

[37] P. D’Angelo, K. Bittner, T. Krauss, P. Reinartz, D. Cerra, S. M. Azimi, N. Merkle, J. Tian, S. Auer, M. Pato, R. De Los Reyes, and X. Zhuo, 3D Semantic Segmentation from Multi-View Optical Satellite Images, in International Geoscience and Remote Sensing Symposium (IGARSS) (2019), pp. 5053–5056.

[38] G. Pitruzzello, S. Thorpe, S. Johnson, A. Evans, H. Gadêlha, and T. F. Krauss, Multiparameter Antibiotic Resistance Detection Based on Hydrodynamic Trapping of Individual: E. Coli, Lab Chip 19, 1417 (2019).

[39] S. A. Kamil, J. Chandrappan, T. F. Krauss, and G. Jose, Ultrafast Laser Plasma Doping of Er³⁺ in Si<inf>3</Inf>N<inf>4</Inf>-on-Silicon, J. Optoelectron. Adv. Mater. 21, 710 (2019).

[40] A. Safdar, Y. Wang, C. Reardon, J. Li, G. S. De Arruda, A. Martins, E. R. Martins, and T. F. Krauss, Interplay between Optical and Electrical Properties of Nanostructured Surfaces in Crystalline Silicon Solar Cells, IEEE Photonics J. 11, (2019).

[41] L. M. Miller, C. D. Silver, R. Herman, A.-K. Duhme-Klair, G. H. Thomas, T. F. Krauss, and S. D. Johnson, Surface-Bound Antibiotic for the Detection of β-Lactamases, ACS Appl. Mater. Interfaces 11, 32599 (2019).

[42] A. Drayton, C. Reardon, and T. F. Krauss, Autonomous Photonic Biosensor Based on Guided Mode Resonance, in Optics InfoBase Conference Papers, Vol. Part F140- (2019).

[43] S. Grandi, M. P. Nielsen, J. Cambiasso, S. Boissier, K. D. Major, C. Reardon, T. F. Krauss, R. F. Oulton, E. A. Hinds, and A. S. Clark, Hybrid Plasmonic Waveguide Coupling of Photons from a Single Molecule, APL Photonics 4, (2019).

[44] A. Drayton, C. Reardon, and T. F. Krauss, Autonomous Photonic Biosensor Based on Guided Mode Resonance, in 2019 Conference on Lasers and Electro-Optics Europe and European Quantum Electronics Conference, CLEO/Europe-EQEC 2019 (2019).

[45] D. Conteduca, G. Brunetti, F. Dell’Olio, M. N. Armenise, T. F. Krauss, and C. Ciminelli, Monitoring of Individual Bacteria Using Electro-Photonic Traps, Biomed. Opt. Express 10, 3463 (2019).

[46] H. Li, D. P. Stellinga, Y. Qiu, Q. Sun, B. Chen, H. Liang, T. F. Krauss, and J. Li, Ultra-Thin Transmissive Crystalline Silicon High-Contrast Grating Metasurfaces, Opt. Express 27, 30931 (2019).

2018

[1] García A M, Budarin V L, Zhou Y, De Bruyn M, Hunt A J, Lari L, Lazarov V K, Salavagione H J, Morales E, Ellis G J, Clark J H and Shuttleworth P S 2018 Monolithic mesoporous graphitic composites as super capacitors: From Starbons to Starenes® J. Mater. Chem. A 6 1119–27

[2] Wilson K M, Jagger A M, Walker M, Seinkmane E, Fox J M, Kröger R, Genever P and Ungar D 2018 Glycans modify mesenchymal stem cell differentiation to impact on the function of resulting osteoblasts J. Cell Sci. 131 jcs209452

[3] Stawski T M, Roncal-Herrero T, Fernandez-Martinez A, Matamoros-Veloza A, Kröger R and Benning L G 2018 “on demand” triggered crystallization of CaCO3from solute precursor species stabilized by the water-in-oil microemulsion Phys. Chem. Chem. Phys. 20 13825–35

[4] Lamb K J, Dowsett M R, Chatzipanagis K, Scullion Z W, Kröger R, Lee J D, Aguiar P M, North M and Parkin A 2018 Capacitance-Assisted Sustainable Electrochemical Carbon Dioxide Mineralisation ChemSusChem 11 137–48

[5] Kröger R and Verch A 2018 Liquid Cell Transmission Electron Microscopy and the Impact of Confinement on the Precipitation from Supersaturated Solutions Minerals 8 21

[6] Jackson E, Sun M, Kubota T, Takanashi K and Hirohata A 2018 Chemical and structural analysis on magnetic tunnel junctions using a decelerated scanning electron beam /639/301/1005/1007 /639/301/930/2735 /120 article Sci. Rep. 8 1–6

[7] Beevers J E, Love C J, Lazarov V K, Cavill S A, Izadkhah H, Vittoria C, Fan R, Van Der Laan G and Dhesi S S 2018 Enhanced magnetoelectric effect in M-type hexaferrites by Co substitution into trigonal bi-pyramidal sites Appl. Phys. Lett. 112 0–5

[8] Ward M R, Theobald B, Sharman J, Boyes E D and Gai P L 2018 Direct observations of dynamic PtCo interactions in fuel cell catalyst precursors at the atomic level using E(S)TEM J. Microsc. 269 143–50

[9] Lagrow A P, Alyami N M, Lloyd D C, Bakr O M, Boyes E D and Gai P L 2018 In situ oxidation and reduction of triangular nickel nanoplates via environmental transmission electron microscopy J. Microsc. 269 161–7

[10] LaGrow A P, Lloyd D C, Gai P L and Boyes E D 2018 In Situ Scanning Transmission Electron Microscopy of Ni Nanoparticle Redispersion via the Reduction of Hollow NiO Chem. Mater. 30 197–203

[11] Reznikov N, Bilton M, Lari L, Stevens M M and Kröger R 2018 Fractal-like hierarchical organization of bone begins at the nanoscale. Science 360 eaao2189

[12] Migliorini A, Kuerbanjiang B, Huminiuc T, Kepaptsoglou D, Muñoz M, Cuñado J L F, Camarero J, Aroca C, Vallejo-Fernández G, Lazarov V K and Prieto J L 2018 Spontaneous exchange bias formation driven by a structural phase transition in the antiferromagnetic material Nat. Mater. 17 28–34

[13] Oberdick S D, Abdelgawad A, Moya C, Mesbahi-Vasey S, Kepaptsoglou D, Lazarov V K, Evans R F L, Meilak D, Skoropata E, Van Lierop J, Hunt-Isaak I, Pan H, Ijiri Y, Krycka K L, Borchers J A and Majetich S A 2018 Spin canting across core/shell Fe3O4/MnxFe3-xO4nanoparticles Sci. Rep. 8 1–12

[14] Glover S E, Saerbeck T, Kuerbanjiang B, Ghasemi A, Kepaptsoglou D, Ramasse Q M, Yamada S, Hamaya K, Hase T P A, Lazarov V K and Bell G R 2018 Magnetic and structural depth profiles of Heusler alloy Co ₂ FeAl _0.5 Si _0.5 epitaxial films on Si(1 1 1) J. Phys. Condens. Matter 30 065801

[15] Kuerbanjiang B, Love C, Kepaptsoglou D, Nedelkoski Z, Yamada S, Ghasemi A, Ramasse Q M, Hamaya K, Cavill S A and Lazarov V K 2018 Effect of annealing on the structure and magnetic properties of Co2FeAl0.5Si0.5 thin films on Ge(111) J. Alloys Compd. 748 323–7

[16] Safdar A, Wang Y and Krauss T F 2018 Random lasing in uniform perovskite thin films Opt. Express 26 A75

[17] Stellinga D, Pietrzyk M E, Glackin J M E, Wang Y, Bansal A K, Turnbull G A, Dholakia K, Samuel I D W and Krauss T F 2018 An Organic Vortex Laser ACS Nano 12 2389–94

2017

[18] Unsworth C A, Coulson B, Chechik V and Douthwaite R E 2017 Aerobic oxidation of benzyl alcohols to benzaldehydes using monoclinic bismuth vanadate nanoparticles under visible light irradiation: Photocatalysis selectivity and inhibition J. Catal. 354 152–9

[19] Thirunavukkarasu G, Mousley M, Babiker M and Yuan J 2017 Normal modes and mode transformation of pure electron vortex beams Philos. Trans. R. Soc. A Math. Phys. Eng. Sci. 375

[20] Hong J, Jin C, Yuan J and Zhang Z 2017 Atomic Defects in Two-Dimensional Materials: From Single-Atom Spectroscopy to Functionalities in Opto-/Electronics, Nanomagnetism, and Catalysis Adv. Mater. 29

[21] Mousley M, Thirunavukkarasu G, Babiker M and Yuan J 2017 Robust and adjustable C-shaped vortex beams New J. Phys. 19 063008

[22] Lloyd S M, Babiker M, Thirunavukkarasu G and Yuan J 2017 Electron vortices: Beams with orbital angular momentum Rev. Mod. Phys. 89 1–44

[23] Yang Y, Thirunavukkarasu G, Babiker M and Yuan J 2017 Orbital-Angular-Momentum Mode Selection by Rotationally Symmetric Superposition of Chiral States with Application to Electron Vortex Beams Phys. Rev. Lett. 119

[24] Adamiano A, Sangiorgi N, Sprio S, Ruffini A, Sandri M, Sanson A, Gras P, Grossin D, Francès C, Chatzipanagis K, Bilton M, Marzec B, Varesano A, Meldrum F, Kröger R and Tampieri A 2017 Biomineralization of a titanium-modified hydroxyapatite semiconductor on conductive wool fibers J. Mater. Chem. B 5 7608–21

[25] Hirohata A, Huminiuc T, Sinclair J, Wu H, Samiepour M, Vallejo-Fernandez G, O’Grady K, Balluf J, Meinert M, Reiss G, Simon E, Khmelevskyi S, Szunyogh L, Díaz R Y, Nowak U, Tsuchiya T, Sugiyama T, Kubota T, Takanashi K, Inami N and Ono K 2017 Development of antiferromagnetic Heusler alloys for the replacement of iridium as a critically raw material J. Phys. D. Appl. Phys. 50 443001

[26] Balluff J, Huminiuc T, Meinert M, Hirohata A and Reiss G 2017 Integration of antiferromagnetic Heusler compound Ru2MnGe into spintronic devices Appl. Phys. Lett. 111

[27] DuttaGupta S, Fukami S, Kuerbanjiang B, Sato H, Matsukura F, Lazarov V K and Ohno H 2017 Magnetic domain-wall creep driven by field and current in Ta/CoFeB/MgO AIP Adv. 7

[28] Zhang K H L, Wu R, Tang F, Li W, Oropeza F E, Qiao L, Lazarov V K, Du Y, Payne D J, MacManus-Driscoll J L and Blamire M G 2017 Electronic Structure and Band Alignment at the NiO and SrTiO ₃ p–n Heterojunctions ACS Appl. Mater. Interfaces acsami.7b06025

[29] Nedelkoski Z, Kepaptsoglou D, Lari L, Wen T, Booth R A, Oberdick S D, Galindo P L, Ramasse Q M, Evans R F L, Majetich S and Lazarov V K 2017 Origin of reduced magnetization and domain formation in small magnetite nanoparticles Sci. Rep. 7 1–8

[30] Kelley C S, Thompson S M, Gilks D, Sizeland J, Lari L, Lazarov V K, Matsuzaki K, LeFrançois S, Cinque G and Dumas P 2017 Spatially resolved variations in reflectivity across iron oxide thin films J. Magn. Magn. Mater. 441 743–9

[31] Takahashi N, Huminiuc T, Yamamoto Y, Yanase T, Shimada T, Hirohata A and Nagahama T 2017 Fabrication of Epitaxial Fe3O4 Film on a Si(111) Substrate Sci. Rep. 7 1–8

[32] Triggs G J, Wang Y, Reardon C P, Fischer M, Evans G J O and Krauss T F 2017 Chirped guided-mode resonance biosensor Optica 4 229

[33] Triggs G J, Evans G J O and Krauss T F 2017 Degradation of silicon photonic biosensors in cell culture media: analysis and prevention Biomed. Opt. Express 8 2924

[34] Conteduca D, Reardon C, Scullion M G, Dell’Olio F, Armenise M N, Krauss T F and Ciminelli C 2017 Ultra-high Q/V hybrid cavity for strong light-matter interaction APL Photonics 2 086101

[35] Schuster C S, Smith B R, Sanderson B J, Mullins J T, Atkins J, Joshi P, McNamara L, Krauss T F and Jenkins D G 2017 Flexible silicon-based alpha-particle detector Appl. Phys. Lett. 111 073505

[36] Juan-Colás J, Krauss T F and Johnson S D 2017 Real-Time Analysis of Molecular Conformation Using Silicon Electrophotonic Biosensors ACS Photonics 4 2320–6

[37] Fohrmann L S, Sommer G, Pitruzzello G, Krauss T F, Petrov A Y and Eich M 2017 Integrating cell on chip—Novel waveguide platform employing ultra-long optical paths APL Photonics 2 096102