Your search keyword '"MESA Institute"' showing total 10 results

1. Selective self-organization of guest molecules in self-assembled molecular boxes.

Author

Kerckhoffs JM, ten Cate MG, Mateos-Timoneda MA, van Leeuwen FW, Snellink-Ruël B, Spek AL, Kooijman H, Crego-Calama M, and Reinhoudt DN

Subjects

Barbiturates chemistry, Calixarenes chemistry, Crystallography, X-Ray, Models, Molecular, Molecular Structure, Phenols chemistry, Triazines chemistry, Anthraquinones chemistry, Calixarenes chemical synthesis, Phenols chemical synthesis, Triazines chemical synthesis

Abstract

This article describes the synthesis and binding properties of highly selective noncovalent molecular receptors 1(3).(DEB)6 and 3(3).(DEB)6 for different hydroxyl functionalized anthraquinones 2. These receptors are formed by the self-assembly of three calix[4]arene dimelamine derivative molecules (1 or 3) and six diethylbarbiturate (DEB) molecules to give 1(3).(DEB)6 or 3(3).(DEB)6. Encapsulation of 2 occurs in a highly organized manner; that is, a noncovalent hydrogen-bonded trimer of 2 is formed within the hydrogen-bonded receptors 1(3).(DEB)6 and 3(3).(DEB)6. Both receptors 1(3).(DEB)6 and 3(3).(DEB)6 change conformation from staggered to eclipsed upon complexation to afford a better fit for the 2(3) trimer. The receptor selectivity toward different anthraquinone derivatives 2 has been studied using 1H NMR spectroscopy, X-ray crystallography, UV spectroscopy, and isothermal microcalorimetry (ITC). The pi-pi stacking between the electron-deficient center ring of the anthraquinone derivatives 2a-c and 2e-g and the relatively electron-poor melamine units of the receptor is the driving force for the encapsulation of the guest molecules. The selectivity of the hydrogen-bonded host for the anthraquinone derivatives is the result of steric interactions between the guest molecules and the calix[4]arene aromatic rings of the host.

Published

2005

2. Chemically patterned flat stamps for microcontact printing.

Author

Sharpe RB, Burdinski D, Huskens J, Zandvliet HJ, Reinhoudt DN, and Poelsema B

Abstract

Locally oxidized patterns on flat poly(dimethylsiloxane) stamps for microcontact printing were used as a platform for the transfer of a hydrophilic fluorescent ink to a glass substrate. The contrast was found to be limited. These locally oxidized patterns were conversely used as barriers for the transfer of hydrophobic n-octadecanethiol. In this case a good contrast was obtained, but the pattern was found to be susceptible to defects (cracks) in the barrier layer. Local stamp surface oxidation and subsequent modification with 1H,1H,2H,2H-perfluorodecyltrichlorosilane, for use as a barrier in the transfer of n-octadecanethiol, 16-mercaptohexadecanoic acid, and octanethiol, resulted in remarkably good contrast and stable patterns. The improved ink transfer control is ascribed to the reduction of undesired surface spreading and a superior mechanical stability of the stamp pattern. This new approach substantially expands the applicability of microcontact printing and provides a tool for the faithful reproduction of even extremely low filling ratio patterns.

Published

2005

3. Assembly of a supramolecular capsule on a molecular printboard.

Author

Corbellini F, Mulder A, Sartori A, Ludden MJ, Casnati A, Ungaro R, Huskens J, Crego-Calama M, and Reinhoudt DN

Abstract

A molecular capsule based on ionic interactions between two oppositely charged calix[4]arenes, 1 and 2, was assembled both in solution and on a surface. In solution, the formation of the equimolar assembly 1.2 was studied by (1)H NMR, ESI-MS, and isothermal titration calorimetry, giving an association constant (K(a)) of 7.5 x 10(5) M(-1). A beta-cyclodextrin self-assembled monolayer (beta-CD SAM) on gold was used as a molecular printboard to anchor the tetraguanidinium calix[4]arene (2). The binding of tetrasulfonate calix[4]arene 1 was monitored by surface plasmon resonance spectroscopy. Rinsing of the surface with a high ionic strength aqueous solution allows the removal of the tetrasulfonate calix[4]arene (1), while by rinsing with 2-propanol it is possible to achieve the complete desorption of the tetraguanidinium calix[4]arene (2) from the beta-CD SAM. The K(a) for the capsule formation on a surface is 3.5 x 10(6) M(-1), thus comparing well with the K(a) determined in solution.

Published

2004

4. Binding control and stoichiometry of ferrocenyl dendrimers at a molecular printboard.

Author

Nijhuis CA, Huskens J, and Reinhoudt DN

Subjects

Binding Sites, Electrochemistry, Ferrous Compounds chemical synthesis, Gold chemistry, Metallocenes, Models, Molecular, Nanotechnology methods, Polymers chemical synthesis, Surface Plasmon Resonance, Cyclodextrins chemistry, Ferrous Compounds chemistry, Polymers chemistry, beta-Cyclodextrins

Abstract

Ferrocenyl-functionalized PPI dendrimers of generations 1-5 were adsorbed at self-assembled monolayers of heptathioether-functionalized beta-cyclodextrin (betaCD) on gold. The dendrimers form stable supramolecular assemblies at the betaCD host surface having multivalent supramolecular interactions and could be electrochemically desorbed from the surface. Using cyclic voltammetry, the stoichiometries of the dendrimers at the surface could be determined for all generations, which were quantitatively confirmed for generations 1 and 2 by surface plasmon resonance titrations.

Published

2004

5. Catalytic probe lithography: catalyst-functionalized scanning probes as nanopens for nanofabrication on self-assembled monolayers.

Author

Péter M, Li XM, Huskens J, and Reinhoudt DN

Abstract

This article describes the use of scanning catalytic probe lithography for nanofabrication of patterns on self-assembled monolayers (SAMs) of reactive adsorbates. Catalytic writing was carried out by scanning over bis(omega-tert-butyldimethyl-siloxyundecyl)disulfide SAMs using 2-mercapto-5-benzimidazole sulfonic acid-functionalized gold-coated AFM tips. The acidic tips induced local hydrolysis of the silyl ether moieties in the contacted areas, and thus patterned surfaces were created. Diffusion effects arising from the use of an ink were excluded in these type of experiments, and therefore structures with well-defined shapes and sizes were produced. The smallest lines drawn by this technique were about 25 nm wide, corresponding to the actual contact area of the tip. Lateral force microscopy studies performed on different SAMs helped to clarify the nature and cause of the friction contrasts observed by AFM. Dendritic wedges with thiol functions inserted into the catalytically written areas, thus enhancing the height contrast. The created patterns open possibilities to build 3D nanostructures.

Published

2004

6. Formation of a hydrogen-bonded receptor assembly in niosomal membranes.

Author

ten Cate MG, Crego-Calama M, and Reinhoudt DN

Subjects

Biomimetic Materials chemistry, Circular Dichroism, Hydrogen Bonding, Liposomes chemistry, Perylene analogs & derivatives, Triazines chemistry, Barbiturates chemistry, Calixarenes, Membranes, Artificial, Perylene chemistry, Phenols chemistry, Receptors, Cell Surface chemistry, Surface-Active Agents chemistry

Abstract

The formation of a hydrogen-bonded receptor in niosomal membranes is reported in this communication. The niosomes prepared from non-ionic surfactants C12EO3 and C14EO3 provide a stable system that allows the self-assembly of hydrogen-bonded receptors to occur in contact with aqueous environments. We demonstrate here by CD, TEM and Confocal Microscopy that the incorporation of the building blocks, calix[4]dimelamine 1 and PerBAR, within the niosomal membranes led to the formation of well-defined hydrogen-bonded assembly 13.(PerBAR)6 within these membranes.

Published

2004

7. Divalent binding of a bis(adamantyl)-functionalized calix[4]arene to beta-cyclodextrin-based hosts: an experimental and theoretical study on multivalent binding in solution and at self-assembled monolayers.

Author

Mulder A, Auletta T, Sartori A, Del Ciotto S, Casnati A, Ungaro R, Huskens J, and Reinhoudt DN

Abstract

The divalent binding of a bis(adamantyl)-functionalized calix[4]arene (1) to an EDTA-tethered beta-cyclodextrin (CD) dimer (2) in solution (1.2 x 10(7) M(-)(1)) was 3 orders of magnitude weaker than the binding constant ( approximately 10(10) M(-)(1)) for the interaction of 1 at CD self-assembled monolayers (SAMs) on gold. This difference in binding is rationalized using a theoretical model, which interprets the divalent binding as two consecutive monovalent binding events, i.e., an intermolecular interaction followed by an intramolecular binding event, the latter of which is associated with an effective concentration term accounting for the close proximity of the two interacting species. The methodology presented in the model is applicable to divalent binding both in solution and at SAMs and indicates that the difference in observed binding constants mainly stems from a difference in effective concentration.

Published

2004

8. A model for describing the thermodynamics of multivalent host-guest interactions at interfaces.

Author

Huskens J, Mulder A, Auletta T, Nijhuis CA, Ludden MJ, and Reinhoudt DN

Subjects

Adsorption, Binding Sites, Binding, Competitive, Computer Simulation, Kinetics, Molecular Structure, Surface Plasmon Resonance, Cyclodextrins chemistry, Models, Chemical, Thermodynamics

Abstract

A model has been described for interpreting the binding of multivalent molecules to interface-immobilized monovalent receptors through multiple, independent interactions. It is based on the concept of effective concentration, C(eff), which has been developed before for multivalent binding in solution and which incorporates effects of lengths and flexibilities of linkers between interacting sites. The model assumes: (i). the interactions are independent, (ii). the maximum number of interactions, p(max), is known, (iii). C(eff) is estimated from (simple) molecular models. Simulations of the thermodynamics and kinetics of multivalent host-guest binding to interfaces have been discussed, and competition with a monovalent competitor in solution has been incorporated as well. The model was successfully used to describe the binding of a divalent guest to self-assembled monolayers of a cyclodextrin host. The adsorption data of more complex guest-functionalized dendrimers, for which p(max) was not known beforehand, was interpreted as well. Finally, it has been shown that the model can aid to deconvolute contributions of multivalency and cooperativity to stability enhancements observed for the adsorption of multivalent molecules to interfaces.

Published

2004

9. Segment dynamics in thin polystyrene films probed by single-molecule optics.

Author

Tomczak N, Vallée RA, van Dijk EM, Kuipers L, van Hulst NF, and Vancso GJ

Abstract

Single fluorescent molecules (represented by spheres with a volume equal to the actual van der Waals volume of the molecule) has been embedded in a polystyrene matrix (left). Such molecules act as probes for the study of polymer nanoscale (segmental scale) dynamics in thin films deposited on a glass cover slide (right).

Published

2004

10. Beta-cyclodextrin host-guest complexes probed under thermodynamic equilibrium: thermodynamics and AFM force spectroscopy.

Author

Auletta T, de Jong MR, Mulder A, van Veggel FC, Huskens J, Reinhoudt DN, Zou S, Zapotoczny S, Schönherr H, Vancso GJ, and Kuipers L

Abstract

The rupture forces of individual host-guest complexes between beta-cyclodextrin (beta-CD) heptathioether monolayers on Au(111) and several surface-confined guests were measured in aqueous medium by single molecule force spectroscopy using an atomic force microscope. Anilyl, toluidyl, tert-butylphenyl, and adamantylthiols (0.2-1%) were immobilized in mixed monolayers with 2-mercaptoethanol on gold-coated AFM tips. For all guests and for all surface coverages, the force-displacement curves measured between the functionalized tips and monolayers of beta-CD exhibited single, as well as multiple, pull-off events. The histograms of the pull-off forces showed several maxima at equidistant forces, with force quanta characteristic for each guest of 39 +/- 15, 45 +/- 15, 89 +/- 15, and 102 +/- 15 pN, respectively. These force quanta were independent of the loading rate, indicating that, because of the fast complexation/decomplexation kinetics, the rupture forces were probed under thermodynamic equilibrium. The force values followed the same trend as the free binding energy Delta G degrees measured for model guest compounds in solution or on beta-CD monolayers, as determined by microcalorimetry and surface plasmon resonance measurements, respectively. A descriptive model was developed to correlate quantitatively the pull-off force values with the Delta G degrees of the complexes, based on the evaluation of the energy potential landscape of tip-surface interaction.

Published

2004