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Progress in developing Poisson-Boltzmann equation solvers.Direct Laser Writing of Magneto-Photonic Sub-Microstructures for Prospective Applications in Biomedical EngineeringSelf-assembly and modular functionalization of three-dimensional crystals from oppositely charged proteinsThe role of solution conditions in the bacteriophage PP7 capsid charge regulation.hsDNA groove binding, photocatalytic activity, and in vitro breast and colon cancer cell reducing function of greener SeNPs.What molecular assembly can learn from catalytic chemistry.Interparticle Forces Underlying Nanoparticle Self-Assemblies.Scaffold and scaffold-free self-assembled systems in regenerative medicine.Three-Dimensional Self Assembly of Semiconducting Colloidal Nanocrystals: From Fundamental Forces to Collective Optical Properties.A new view for nanoparticle assemblies: from crystalline to binary cooperative complementarity.Tactic, reactive, and functional droplets outside of equilibrium.Biomimetic Extracellular Environment Based on Natural Origin Polyelectrolyte Multilayers.A Novel MPEG-PDLLA-PLL Copolymer for Docetaxel Delivery in Breast Cancer Therapy.Chiral Plasmonics Using Twisting along Cellulose Nanocrystals as a Template for Gold Nanoparticles.Nanolevitation Phenomena in Real Plane-Parallel Systems Due to the Balance between Casimir and Gravity Forces.Highly defined, colloid-like ionic clusters in solutionChanging chromatin fiber conformation by nucleosome repositioning.Geometric curvature controls the chemical patchiness and self-assembly of nanoparticles.Long-range specific ion-ion interactions in hydrogen-bonded liquid films.Non-additivity of pair interactions in charged colloids.Matrix and interaction effects on the magnetic properties of Co nanoparticles embedded in gold and vanadium.Potential of mean force between identical charged nanoparticles immersed in a size-asymmetric monovalent electrolyte.Strong attractions and repulsions mediated by monovalent salts.Chemoelectronic circuits based on metal nanoparticles.Importance of varying permittivity on the conductivity of polyelectrolyte solutions.Self-consistent field model for strong electrostatic correlations and inhomogeneous dielectric media.Static and dynamic screening effects in the electrostatic self-assembly of nano-particles.Simulation of electric double layers around charged colloids in aqueous solution of variable permittivity.Self-energy-modified Poisson-Nernst-Planck equations: WKB approximation and finite-difference approaches.Theory of non-equilibrium critical phenomena in three-dimensional condensed systems of charged mobile nanoparticles.Electrostatic free energy for a confined nanoscale object in a fluid.Electrostatic interaction in the presence of dielectric interfaces and polarization-induced like-charge attraction.Self-assembly of like-charged nanoparticles into microscopic crystals.Interconnection of Nanoparticles within 2D Superlattices of PbS/Oleic Acid Thin FilmsColloidal CrystallizationSchizophrenic poly(ε-caprolactone)s: synthesis, self-assembly and fluorescent decorationEmergence of highly-ordered hierarchical nanoscale aggregates on electrostatic binding of self-assembled multivalent (SAMul) cationic micelles with polyanionic heparinStored Coulomb Self-Energy of a Uniformly Charged Rectangular Plate
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Q30447589-796C93D9-0EDD-4F53-8F87-8876215C60FEQ33742215-B19EF97E-ED5A-49E7-ACAA-556594DDE01EQ33942307-3614F9EF-F82B-4AC0-8AE1-E2BDC4C0B7A9Q34423867-B9A44114-AFA5-47A3-A963-07854B8077A2Q36073424-4AA16DEF-9916-46B6-9787-EC9D03B6DC68Q38141728-64DEB87B-2CEB-4D34-BEEA-9C236A245EE3Q38599203-1352D93A-FEA5-4395-8473-7B0F28D95646Q38615719-71C5FA6E-3AB5-4AFB-8330-A9D7193F16A1Q38668381-32745D0D-4170-4692-B722-6EAB56F2C64EQ38774149-E5ED97AC-1274-416C-8793-C1636B62C351Q38854303-DE1DA1D9-6FAF-4325-8566-A6ED170095E1Q38902524-D81DD2E0-0262-4D00-A1E6-83897AAE1CFAQ41430346-640B4857-48F1-4EB7-92E3-50B71CA8ED8FQ41602033-74366D52-6CF0-48B8-880F-8F4D9E2A82C7Q41775966-44BAB031-2310-41BD-B391-2AC07A1F4375Q41951089-FB94DA52-ADD1-4674-9948-262D813F78EAQ42198538-756E4512-30D4-4F89-838C-99A8C06C10D0Q44204387-5D454AB3-21F4-4F98-83AE-B069ED18B44CQ45772554-57B6289E-372C-42CA-9523-2F1440A6667FQ46512461-5D8E2C48-0FF1-41D7-92BA-C9B34D85D4DEQ46610368-5F740CBC-8E86-440C-94DE-F40362168EB0Q47346178-AB60C840-161F-42A4-9CBE-672685ED4B36Q47403026-440909A7-66CA-4CDE-A58B-47CCEC2C94CDQ50428291-81D9A621-5DB9-4361-9FDD-C2C58226A194Q50848402-E0258FF1-9628-4DD6-8376-B328227DCB16Q50986393-C0E595BE-D664-40CA-A7DB-4BFC5469DE89Q51020740-0FA8E80A-A6F2-44DD-ADB2-96750943AD24Q51053875-8D82069B-DDD0-4A31-A5B1-31A1FD94D5F5Q51056447-7FF0BF46-6B0E-459D-9B61-57602025917BQ51081382-1D5D513D-4702-4F54-B1D8-DA25723F6A67Q51239656-2F5D2452-D92F-42DE-AFE6-B68B99054C34Q51257066-1EAE23AF-6B86-4191-9ADF-B0889D195EB4Q51625593-8305FC1F-C4B2-4487-89ED-CA5E8B40AD2BQ57330386-2C449174-B8DC-4B77-8665-3264625BAC00Q57341154-6B80FCD7-6005-42E1-942F-6484612DC034Q57369430-7C47DC7E-9758-4E70-B8D5-31AA95EC0854Q58324559-8B062F97-C005-4389-BDA4-39F340D356DCQ59122548-980C8547-67EF-4B62-977F-5B8F500BBB5F
P2860
description
article científic
@ca
article scientifique
@fr
articolo scientifico
@it
artigo científico
@pt
bilimsel makale
@tr
scientific article published on 14 February 2011
@en
vedecký článok
@sk
vetenskaplig artikel
@sv
videnskabelig artikel
@da
vědecký článek
@cs
name
Electrostatics at the nanoscale.
@en
Electrostatics at the nanoscale.
@nl
type
label
Electrostatics at the nanoscale.
@en
Electrostatics at the nanoscale.
@nl
prefLabel
Electrostatics at the nanoscale.
@en
Electrostatics at the nanoscale.
@nl
P2093
P2860
P356
P1433
P1476
Electrostatics at the nanoscale.
@en
P2093
Bartlomiej Kowalczyk
Bartosz A Grzybowski
David A Walker
Monica Olvera de la Cruz
P2860
P304
P356
10.1039/C0NR00698J
P407
P577
2011-02-14T00:00:00Z