Anna Fahlgren, Xu Yang, Cesare Ciani, James A. Ryan, Natalie Kelly, Frank C. Ko, Marjolein C. H. van der Meulen and Mathias P. G. Boström
The effects of PTH, loading and surgical insult on cancellous bone at the bone-implant interface in the rabbit
Bone, 2013, 52(2), 718-724.
Web of Science® Times Cited: 7 | |
Mathias Boström, Clas Persson, Drew F. Parsons, Simen A. Ellingsen and Bo Sernelius
Atmospheric water droplets can catalyse atom pair break-up via surface-induced resonance repulsion
Europhysics letters, 2013, 101(4), .
Fulltext  Web of Science® Times Cited: 1 | |
Mathias Boström and Bo Sernelius
Repulsive van der Waals forces due to hydrogen exposure on bilayer graphene
Physical Review A. Atomic, Molecular, and Optical Physics, 2012, 85(1), 012508.
Fulltext Web of Science® Times Cited: 11 | |
Mathias Boström, Bo Sernelius, Iver Brevik and Barry W Ninham
Retardation turns the van der Waals attraction into a Casimir repulsion as close as 3 nm
Physical Review A. Atomic, Molecular, and Optical Physics, 2012, 85(1), 010701.
Fulltext Web of Science® Times Cited: 16 | |
Mathias Boström, Bo Sernelius, Gustavo Baldissera, Clas Persson and Barry W Ninham
Casimir-Lifshitz interaction between ZnO and SiO2 nanorods in bromobenzene turns repulsive at intermediate separations due to retardation effects
Physical Review A. Atomic, Molecular, and Optical Physics, 2012, 85(4), 044702.
Fulltext Web of Science® Times Cited: 3 | |
Mathias Boström, Simen A. Ellingsen, Iver Brevik, Drew F. Parsons and Bo Sernelius
Sign of the Casimir-Polder interaction between atoms and oil-water interfaces: Subtle dependence on dielectric properties
Physical Review A. Atomic, Molecular, and Optical Physics, 2012, 85(6), 064501.
Fulltext Web of Science® Times Cited: 3 | |
Eduardo R. A. Lima, Mathias Boström, Nadine Schwierz, Bo Sernelius and Frederico W. Tavares
Attractive double-layer forces between neutral hydrophobic and neutral hydrophilic surfaces
Physical Review E. Statistical, Nonlinear, and Soft Matter Physics, 2011, 84(6), 061903.
Fulltext Web of Science® Times Cited: 5 | |
Eduardo R A Lima, Evaristo C Biscaia Jr, Mathias Boström and Frederico W Tavares
Ion-specific thermodynamical properties of aqueous proteins
ANAIS DA ACADEMIA BRASILEIRA DE CIENCIAS, 2010, 82(1), 109-126.
Web of Science® Times Cited: 3 | |
Andrea Salis, Drew F. Parsons, Mathias Boström, Luca Medda, Brajesh Barse, Barry W. Ninham and Maura Monduzzi
Ion Specific Surface Charge Density of SBA-15 Mesoporous Silica
Langmuir, 2010, 26(4), 2484-2490.
Web of Science® Times Cited: 48 | |
D. F. Parsons, Mathias Boström, T. J. Maceina, A Salis and B. W. Ninham
Why Direct or Reversed Hofmeister Series? Interplay of Hydration,Non-electrostatic Potentials, and Ion Size
Langmuir, 2010, 26(5), 3323-3328.
Web of Science® Times Cited: 62 | |
Mattias Boström, E R A Lima, E C Biscaia, F W Tavares, P Lo Nostro, D F Parsons, V Deniz and B W Ninham
Anion-Specific Partitioning in Two-Phase Finite Volume Systems: Possible Implications for Mechanisms of Ion Pumps.
Journal of Physical Chemistry B, 2009, 113(23), 8124-8127.
Web of Science® Times Cited: 10 | |
Mathias Boström, E. R. A. Lima, E. C. Biscaia Jr., F. W. Tavares and W. Kunz
Ion specific forces between charged self-assembled monolayersexplained by modified DLVO theory
Elsevier IFAC Publications / IFAC Proceedings series, 2009, 346(1-3), 11-15.
Web of Science® Times Cited: 8 | |
E.R.A. Lima, D. Horinek, R.R. Netz, E.C. Biscaia, F.W. Tavares, W. Kunz and Mathias Boström
Specific Ion Adsorption and Surface Forces in Colloid Science
Journal of Physical Chemistry B, 2008, 112(6), 1580-1585.
Web of Science® Times Cited: 35 | |
Dominik Horinek, Andreas Serr, Douwe Jan Bonthuis, Mathias Boström, Werner Kunz and Roland r. Netz
Molecular Hydrophobic Attraction and Ion-Specific Effects Studied by Molecular Dynamics
Langmuir, 2008, 24, 1271-1283.
Web of Science® Times Cited: 50 | |
E. R. A. Lima, Mathias Boström, D. Horinek, E. C. Biscaia, Jr, W. Kunz, and F. W. F. W. Tavares
Co-Ion and Ion Competition Effects: Ion Distributions Close to a Hydrophobic Solid Surface in Mixed Electrolyte Solutions
Langmuir, 2008, 24, 3944-3948.
Web of Science® Times Cited: 21 | |
Mathias Boström, E. R. A. Lima, F. W. Tavares, and B. W. Ninham
The influence of ion binding and ion specific potentials on the double layer pressure between charged bilayers at low salt concentrations
Journal of Chemical Physics, 2008, 128, 135104-1-135104-4.
Web of Science® Times Cited: 18 | |
Vivianne Deniz, Mathias Boström, D. Bratko, F.W. Tavares and B.W. Ninham
Specific ion effects: Interaction between nanoparticles in electrolyte solutions
Colloids and Surfaces A: Physicochemical and Engineering Aspects, 2008, 319, 98-102.
Web of Science® Times Cited: 15 | |
E.R.A. Limal, Mathias Boström, Bo Sernelius, D. Horinek, R.R. Netz, E.C. Biscaia, W. Kunz and F.W. Tavares
Forces between Air-Bubbles in Electrolyte Solution
Chemical Physics Letters, 2008, 458, 299-302.
Web of Science® Times Cited: 7 | |
Livia A. Moreira, Mathias Boström, Barry W. Ninham, Evaristo C. Biscaia and Frederico W. Tavares
Effect of the Ion-Protein Dispersion Interactions on the Protein-Surface and Protein-Protein Interactions
Journal of the Brazilian Chemical Society, 2007, 18, 223-230.
Web of Science® Times Cited: 7 | |
E.R.A. Lima, Jr. E.C. Biscaia, Mathias Boström, F.W. Tavares and J.M. Prausnitz
Osmotic second virial coefficients and phase diagrams for aqueous proteins from a much-improved poisson - Boltzmann equation
The Journal of Physical Chemistry C, 2007, 111(43), 16055-16059.
Web of Science® Times Cited: 26 | |
E. R. A. Lima, E. C., Jr. Biscaia, Mathias Boström and F. W. Tavares
Ion-specific forces between a colloidal nanoprobe and a charged surface
Langmuir, 2007, 23(14), 7456-7458.
Web of Science® Times Cited: 6 | |
Mathias Boström, Vivianne Deniz, G.V. Franks and B.W. Ninham
Extended DLVO theory: Electrostatic and non-electrostatic forces in oxide suspensions
Advances in Colloid and Interface Science, 2006, 123-26, .
Web of Science® Times Cited: 63 | |
Mathias Boström and B.W. Ninham
Why pH titration in lysozyme suspensions follow a Hofmeister series
Colloids and Surfaces A: Physicochemical and Engineering Aspects, 2006, 291, 24-29.
Web of Science® Times Cited: 10 | |
Mathias Boström, Frederico W. Tavares, Barry W. Ninham and John M. Prausnitz
Effect of Salt Identity on the Phase Diagram for a Globular Protein in Aqueous Electrolyte Solution
Journal of Physical Chemistry B, 2006, 110, 24757-24760.
Web of Science® Times Cited: 38 | |
L.A. Moreira, Mathias Boström, B.W. Ninham, E.C. Biscaia and F.W. Tavares
Hofmeister effects: Why protein charge, pH titration and protein precipitation depend on the choice of background salt solution
Colloids and Surfaces A: Physicochemical and Engineering Aspects, 2006, 282-283, 457-463.
Web of Science® Times Cited: 35 | |
Mathias Boström, F.W. Tavares, D. Bratko and B.W. Ninham
Ion specific interactions between pairs of nanometer ized particles in aqueous solutions
Progress in Colloid and Polymer Science, 2006, 133, 74-77.
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Mathias Boström, B. Lonetti, E. Fratini, P. Baglioni and B.W. Ninham
Why pH titration in protein solutions follows a Hofmeister series
Journal of Physical Chemistry B, 2006, 110(14), 7563-7566.
Web of Science® Times Cited: 22 | |
Mathias Boström, V. Deniz and B.W. Ninham
Ion Specific Surface Forces between Membrane Surfaces
Journal of Physical Chemistry B, 2006, 110, 9645-9649.
Web of Science® Times Cited: 11 | |
Mathias Boström, W. Kunz and B.W. Ninham
Hofmeister Effects in Surface Tension of Aqueous Electrolyte Solution
Langmuir, 2005, 21, 2619-2623.
Web of Science® Times Cited: 102 | |
Mathias Boström and B.W. Ninham
Energy of an ion crossing a low dielectric membrane: the role of dispersion self-free energy
Biophysical Chemistry, 2005, 114, 95-101.
Web of Science® Times Cited: 26 | |
Mathias Boström, F.W. Tavares, S. Finet, F. Skouri-Panet, A Tardieu and B.W. Ninham
Why forces between proteins follow different Hofmeister series fo pH above and below pI
Biophysical Chemistry, 2005, 117, 217-224.
Web of Science® Times Cited: 120 | |
B.W. Ninham and Mathias Boström
Building bridges between the physical and biological sciences
Cellular and Molecular Biology, 2005, 51(8), 803-813.
Web of Science® Times Cited: 13 | |
Mathias Boström, F.W. Tavares, D. Bratko and B.W. Ninham
Specific ion effects in solutions of globular proteins: Comparison between analytical models and simulation
Journal of Physical Chemistry B, 2005, 109(51), 24489-24494.
Web of Science® Times Cited: 45 | |
Mathias Boström, W. Kunz and B.W. Ninham
Hofmeister effects in surface tension of aqueous electrolyte solution
Langmuir, 2005, 21(6), 2619-2623.
Web of Science® Times Cited: 102 | |
Mathias Boström and B.W. Ninham
Dispersion self-free energies and interaction free energies of finite-sized ions in salt solutions
Langmuir, 2004, 20(18), 7569-7574.
Web of Science® Times Cited: 43 | |
Mathias Boström and B.W. Ninham
Atomic resonance interaction in dielectric media
Physical Review A. Atomic, Molecular, and Optical Physics, 2004, 69(5 B), 054701-1.
Web of Science® Times Cited: 4 | |
Mathias Boström, D.R.M. Williams and B.W. Ninham
Specific ion effects: Role of salt and buffer in protonation of cytochrome c
The European Physical Journal E Soft matter, 2004, 13(3), 239-245.
Web of Science® Times Cited: 19 | |
Mathias Boström and B.W. Ninham
Contributions from dispersion and born self-free energies to the solvation energies of salt solutions
Journal of Physical Chemistry B, 2004, 108(33), 12593-12595.
Web of Science® Times Cited: 42 | |
Mathias Boström and Bo Sernelius
Entropy of the Casimir effect between real metal plates
Physica A: Statistical Mechanics and its Applications, 2004, 339(01-Feb), 53-59.
Web of Science® Times Cited: 39 | |
Mathias Boström, DRM Williams and BW Ninham
Why the properties of proteins in salt solutions follow a Hofmeister series
Current Opinion in Colloid & Interface Science, 2004, 9(01-Feb), 48-52.
Web of Science® Times Cited: 49 | |
Mathias Boström, J.J. Longdell, D.J. Mitchell and B.W. Ninham
Resonance interation between one excited and one ground state atom
European Physical Journal D: Atomic, Molecular and Optical Physics, 2003, 22, 47-52.
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Mathias Boström, DRM Williams, PR Stewart and BW Ninham
Hofmeister effects in membrane biology: The role of ionic dispersion potentials
Physical Review E. Statistical, Nonlinear, and Soft Matter Physics, 2003, 68(4), .
Web of Science® Times Cited: 44 | |
Mathias Boström, DRM Williams and BW Ninham
Special ion effects: Why the properties of lysozyme in salt solutions follow a Hofmeister series
Biophysical Journal, 2003, 85(2), 686-694.
Web of Science® Times Cited: 148 | |
Mathias Boström, D.R.M. Williams and B.W. Ninham
Specific ion effects: The role of co-ions in biology
Europhysics letters, 2003, 63(4), 610-615.
Web of Science® Times Cited: 20 | |
Bo Sernelius and Mathias Boström
Comment on "Casimir force at both nonzero temperature and finite conductivity"
Physical Review Letters, 2001, 87(25), 259101.
Web of Science® Times Cited: 20 | |
Mathias Boström and Bo Sernelius
Temperature effects on the Casimir attraction between a pair of quantum wells
Microelectronic Engineering, 2000, 51, 287-297.
Web of Science® Times Cited: 13 | |
Mathias Boström and Bo Sernelius
Retardation-enhanced van der Waals force between thin metal films
Physical Review B. Condensed Matter and Materials Physics, 2000, 62(11), 7523-7526.
Fulltext Web of Science® Times Cited: 10 | |
Mathias Boström and Bo Sernelius
Fractional van der Waals interaction between thin metallic films
Physical Review B. Condensed Matter and Materials Physics, 2000, 61(3), 2204-2210.
Web of Science® Times Cited: 66 | |
Mathias Boström and Bo Sernelius
Comment on "Calculation of the Casimir force between imperfectly conducting plates"
Physical Review A. Atomic, Molecular, and Optical Physics, 2000, 61(4), .
Web of Science® Times Cited: 20 | |
Mathias Boström and Bo Sernelius
van der Waals energy of an atom in the proximity of thin metal films
Physical Review A. Atomic, Molecular, and Optical Physics, 2000, 61(5), art. no.-052703.
Web of Science® Times Cited: 18 | |
Mathias Boström and Bo Sernelius
Thermal effects on the Casimir force in the 0.1-5 mu m range
Physical Review Letters, 2000, 84(20), 4757-4760.
Web of Science® Times Cited: 227 | |
* Social media data based on publications from 2011 to present and with a DOI; data delivered by Altmetric.com.
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