Crystals of Au(PPh3)2Cl, Au(PPh3)3BPh4, and other three-coordinate bis(phosphine)gold(I) compounds are luminescent. Solutions of [Au(tht)2]PF6 (tht = tetrahydrothiophene) with added PPh3 in CH3CN luminesce with Xmax = 512 nm and an excited-state lifetime of 10µ$. The emission intensity is sensitive to the phosphine concentration. The luminescent species is postulated to be the tris(phosphine)gold(I) cation, Au(PPh3)3+, in equilibrium with Au(PPh3)2+. Other PR3 phosphine complexes (R = n-octyl, n-butyl, ethyl) also luminesce in solution when excess (>3:1 PR3:Au) phosphine is present. The emission is attributed to a metal-centered Pz -* (dx:_^, dx>) transition which can be dipole allowed under spin-orbit coupling or by Jahn-Teller splitting of the *123E" excited state. resce both in the solid state and, like5 the isoelectronic Pt°(PPh3)3, in solution.
Experimental SectionThe following compounds were made by literature methods: Au-(PPh3)2Cl,6 Au(PPh3)3BPh4 (confirmed by unit cell X-ray measurements),7 Au(PPh3)2PF6,8 Au(tht)Cl,9 AuN(CH2CH2PPh2)3[PF6] and Au2(N(CH2CH2PPh2)3)2[BPh4]2.10
Cobalt
ferrite nanoparticle (CFN) has received attention in magnetic
resonance imaging (MRI) as a promising contrast agent due to its higher
saturation magnetization and magneto-crystalline anisotropy. However,
the in vitro cytotoxicity of CFN has raised concern
for its biomedical application as a diagnostic agent. The coating
of CFN by a biocompatible polymer such as chitosan (CH) might lessen
the biocompatibility concern. Therefore, in this study, we examined
the applicability of chitosan-coated cobalt ferrite nanoparticle (CCN)
as an MRI contrast dye and investigated its biocompatibility in vivo. Phantom MRI images revealed that the relaxivity
of CCN was 121 (±8) mM–1s–1, indicating the potential of CCN as a T
2-weighted contrast agent. A single intravenous (iv) administration
of CCN (10 mg/kg) improved the contrast of magnetic-resonance-imaging-based
angiography (MRA) and brain-MRI in male albino Wistar rats compared
to the control. Furthermore, toxicity studies dependent on dose (1–20
mg/kg) and time (1–28 days) in male albino Wistar rats confirmed
the in vivo biocompatibility of CCN. The physical,
hematological, biochemical, and histopathological observation assured
that a single iv injection of CCN up to 20 mg/kg was well adjusted
with liver, kidney, heart, and brain functions. The findings of the
current study consolidate CCN as a promising candidate for MRI contrast
dye.
Colostrum has enough humoral and cellular elements to protect babies. Therefore, immune protection derived from breastfeeding depends on the immunoglobulin level of the colostrum as well as the amount of colostrum ingested.
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