A series of cylcopalladated complexes containing a six-membered chelating ring with the general formula 5d)] have been synthesized. In addition, an ortho-metalated complex [PdCl(k 2 N,C-C 6 H 4 CHdN(2,6-i Pr 2 C 6 H 3 ))(PCy 3 )] ( 7) was prepared by a similar manner. Crystal structures of 3a, 5b,c, and 7 have been determined. The use of these palladium complexes as catalysts for Suzuki-Miyaura coupling reaction of aryl halides with arylboronic acids in ethanol solution was examined. It is found that this series of palladacycles are considerably active under aerobic conditions. Typically, the best activity (TON ≈ 10 6 ) is seen with 3a,b in the coupling reaction of aryl bromide with phenylboronic acid. However, a TEM study showed that the palladium nanoparticles were formed under the reaction conditions, which might be the active species for the catalysis.
The
efficacy of gold nanoparticle (AuNP)-assisted radiofrequency
(RF)-induced hyperthermia employing the Kanzius device remains controversial.
Different from the Kanzius device, modulated electro-hyperthermia
(mEHT) utilizes the capacitive-impedance coupled 13.56 MHz radiofrequency
(RF) current and has been approved for clinical cancer treatment.
In this study, we investigated the heating characteristics of spherical-,
urchin-, and rod-like AuNPs of a similar 50 nm size upon exposure
to a 13.56 MHz radiofrequency using the LabEHY-105CL, an in
vivo mEHT device. We found that, regardless of the AuNPs’
sphere-, urchin- or rod-like shape, purified gold nanoparticle solution
would not promote heat generation. The temperature elevation during
radiofrequency irradiation was solely attributed to the ionic background
of the solution. The AuNPs present in the medium (≤25 ppm)
showed no effect on selective cell killing of malignant cells, whereas
the AuNPs incorporated in the cells diminished the cell selectivity
as well as cell death and acted as protectors in mEHT cancer treatment.
Our study suggested that (1) the temperature elevation induced by
50 nm AuNPs in the 13.56 MHz radiofrequency field was negligible and
was shape-independent, and (2) the presence of AuNPs would alter the
cell-killing effect of modulated electro-hyperthermia.
A dual-frequency equal-amplitude paired polarization heterodyne polarimeter (DEPHP) was set up in order to precisely measure the mutarotation rate constants of D-glucose in tridistilled water. The DEPHP is based on a balanced detector detection scheme for measurement of the optical rotation angle of D-glucose/water solution during the conversion process between alpha-D-glucose and beta-D-glucose while in a nonequilibrium state. The DEPHP can perform shot-noise-limited detection, so that the total optical rotation angle together with the mutarotation rate constants of alpha-D-glucose and beta-D-glucose conversion can be measured with high sensitivity. In this experiment, the sensitivity of the optical rotation angle measurement was 8.3 x 10(-5) deg/cm, while the total (k), forward (k(1)) and reverse (k(2)) mutarotation rate constants of D-glucose were found to be k = 7.67 x 10(-5) s(-1), k(1) = 2.76 x 10(-5) s(-1), and k(2) = 4.91 x 10(-5) s(-1), respectively, in tridistilled water. Moreover, using the DEPHP, we can measure the specific rotation angles of alpha-D-glucose and beta-D-glucose in water at 632.8 nm. They were 105 degrees and 12 degrees, respectively. Finally, the detection sensitivity of the DEPHP system is also discussed.
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