An improved injectable polysaccharide hydrogel: modified gellan gum
for long-term cartilage regeneration in vitro
Yihong Gong, Chunming Wang, Ruenn Chai Lai, Kai Su, Feng Zhang and Dong-an Wang*
Tuesday, March 24, 2009
Monday, March 23, 2009
J. Mater. Chem., 2009, 19, 1483–1489
Synthesis and photophysical property of well-defined
donor–acceptor diblock copolymer based on regioregular
poly(3-hexylthiophene) and fullerene†
Jea Uk Lee,a Ali Cirpan,b Todd Emrick,b Thomas P. Russellb and Won Ho Jo
donor–acceptor diblock copolymer based on regioregular
poly(3-hexylthiophene) and fullerene†
Jea Uk Lee,a Ali Cirpan,b Todd Emrick,b Thomas P. Russellb and Won Ho Jo
JACS, Vol. 131, No. 9
Pulsed-Addition Ring-Opening Metathesis Polymerization: Catalyst-Economical Syntheses of Homopolymers and Block Copolymers
John B. Matson, Scott C. Virgil and Robert H. GrubbsMetal-Binding Dependent Disruption of Membranes by Designed Helices
Rachel S. Signarvic and William F. DeGradoJACS, Vol. 131, No. 10
Label-Free, Real-Time Multiplexed DNA Detection Using Fluorescent Conjugated Polymers
Weiming Zheng and Lin HeSynthesis of Copolymers by Alternating ROMP (AROMP)
Airong Song, Kathlyn A. Parker and Nicole S. SampsonA Nanoscale Adhesion Layer to Promote Cell Attachment on PEEK
T. Joseph Dennes and Jeffrey Schwartz
Assembly of Magnetically Tunable Photonic Crystals in Nonpolar Solvents
Jianping Ge, Le He, James Goebl and Yadong Yin
ACS Nano article 2
Nanodiamond-Polymer Composite Fibers and Coatings
Abstract:
While nanocrystalline diamond is quickly becoming one of the most widely studied nanomaterials, achieving a large fraction of diamond nanoparticles in a polymer coating has been an unresolved problem. In this work, polymer nano- and microfibers containing high loadings of 5 nm diamond particles (up to 80 wt % in polyacrylonitrile and 40% in polyamide 11) have been demonstrated using electrospun nanofibers as a delivery vehicle. The electrospun nanofibers with a high load of nanodiamond in the polymers were fused into thin transparent films, which had high mechanical properties; an improvement of 4 times for the Young’s modulus and 2 times for the hardness was observed already at 20% nanodiamond in polyamide 11. These films can provide UV protection and scratch resistance to a variety of surfaces, especially in applications where a combination of mechanical, thermal, and dielectric properties is required.
ACS Nano article 1
A Mechanical Actuator Driven Electrochemically by Artificial Molecular Muscles
Abstract:
A microcantilever, coated with a monolayer of redox-controllable, bistable [3]rotaxane molecules (artificial molecular muscles), undergoes reversible deflections when subjected to alternating oxidizing and reducing electrochemical potentials. The microcantilever devices were prepared by precoating one surface with a gold film and allowing the palindromic [3]rotaxane molecules to adsorb selectively onto one side of the microcantilevers, utilizing thiol-gold chemistry. An electrochemical cell was employed in the experiments, and deflections were monitored both as a function of (i) the scan rate (≤20 mV s−1) and (ii) the time for potential step experiments at oxidizing (>+0.4 V) and reducing (<+0.2 V) potentials. The different directions and magnitudes of the deflections for the microcantilevers, which were coated with artificial molecular muscles, were compared with (i) data from nominally bare microcantilevers precoated with gold and (ii) those coated with two types of control compounds, namely, dumbbell molecules to simulate the redox activity of the palindromic bistable [3]rotaxane molecules and inactive 1-dodecanethiol molecules. The comparisons demonstrate that the artificial molecular muscles are responsible for the deflections, which can be repeated over many cycles. The microcantilevers deflect in one direction following oxidation and in the opposite direction upon reduction. The 
550 nm deflections were calculated to be commensurate with forces per molecule of 650 pN. The thermal relaxation that characterizes the device’s deflection is consistent with the double bistability associated with the palindromic [3]rotaxane and reflects a metastable contracted state. The use of the cooperative forces generated by these self-assembled, nanometer-scale artificial molecular muscles that are electrically wired to an external power supply constitutes a seminal step toward molecular-machine-based nanoelectromechanical systems (NEMS).
550 nm deflections were calculated to be commensurate with forces per molecule of 650 pN. The thermal relaxation that characterizes the device’s deflection is consistent with the double bistability associated with the palindromic [3]rotaxane and reflects a metastable contracted state. The use of the cooperative forces generated by these self-assembled, nanometer-scale artificial molecular muscles that are electrically wired to an external power supply constitutes a seminal step toward molecular-machine-based nanoelectromechanical systems (NEMS).JACS, Vol. 131, No. 11
Golden Metallopolymers with an Active T1 State via Coordination of Poly(4-vinyl)pyridine to Pentahalophenyl-Gold(I) Precursors
Manal A. Rawashdeh-Omary, JosGrowth of Oriented Single-Crystalline Rutile TiO2 Nanorods on Transparent Conducting Substrates for Dye-Sensitized Solar Cells
Bin Liu and Eray S. AydilOrg. Biomol. Chem., 2009, 7, 1064 - 1067
Targeting ketone drugs towards transport by the intestinal peptide transporter, PepT1
David Foley, Patrick Bailey, Myrtani Pieri and David Meredith
Friday, March 20, 2009
Macromol. Chem. Phys. , Vol 210, Iss 5, 2009
Thiyl Radical Generation in Thiol or Disulfide Containing Photosensitive System
Jacques Lalevée, Fabrice Morlet-Savary, Mohamad El Roz, Xavier Allonas, Jean Pierre Fouassier
p 311-319
Jacques Lalevée, Fabrice Morlet-Savary, Mohamad El Roz, Xavier Allonas, Jean Pierre Fouassier
p 311-319