Trapping and release of cargo molecules from a micro-stamped mesoporous thin film controlled by Poly(NIPAAm-co-AAm).

Materials that utilize the micropatterned structure of a mesoporous silica film to successfully load and release cargo using a thermal sensitive polymer are presented in this paper. Films with pore sizes of ~2 nm and ~5 nm aligned in the pulling direction were synthesized using evaporation induced self-assembly techniques. The pores are exposed using a new method of stamping micropatterns without the use hydrofluoric acid.

Integrating Native Mass Spectrometry and Top-Down MS for Defining Protein Interactions Important in Biology and Medicine.

Native protein mass spectrometry (MS), the measurement of proteins and protein complexes from non-denaturing solutions, with electrospray ionization (ESI) has utility in the biological sciences. Protein complexes exceeding 1 MDa have been measured by MS and ion mobility spectrometry (IMS), and the data yields information not only regarding size, but structural details can be revealed also. ESI-IMS allows the relative stability of protein-ligand binding to be measured.

A Hydrogen-Bonded [(Mercuracarborand-Water)2 -Benzene] π-Sandwich Complex.

Two cyclic Lewis acidic receptors, namely B-hexamethyl-9-mecuracarborand-3, [9,12-(CH3 )2 -C2 B10 H8 Hg]3 , each host a single water molecule. A benzene molecule is situated between the two complexed water molecules in a sandwich fashion that suggests there is O-H⋅⋅⋅π hydrogen bonding.