A Molecular Paramagnetic Superconductor Superconductors consisting of molecular solids (vs metals) are essential to many applications. It has long been thought that the presence of magnetic ions in the molecular structure should decrease or even suppress superconductivity. Kurmoo prepared and characterized the first example of a molecular superconductor containing iron magnetic anions. These results contradict our preconceived notions about the coexistence of magnetism and superconductivity and systems exhibiting interaction between conduction electrons and localized spins. Most molecular superconductors are electron-transfer salts of the type (BEDT-TTF)2A, where BEDT-TTD is bis(ethylenedithio) tetrathiafulvalene and A is a counteranion. The anion A may be octahedral (such as PF6, tetrahedral (ClO4) , linear (I3) or polymeric (CuNCS2). The highest superconducting critical temperature Tc observed to date for a molecular superconductor is 12.8K in the k-(BEDT-TTF)2(CuNCN2Cl phase. In none of these molecule based superconducting salts is the counter anion A magnetic; that is, none of these salts contains localized anion spins. The application of a magnetic field suppress superconductivity the Meissner effect. as do internal magnetic fields generated in ferromagnetic materials. This effect may be understood within the framework of the Bardeen-cooper-schrieffer theory (BCS) for 3D systems exhibiting a spherical Fermi surface. According to BCS theory, the occurrence of singlet-state superconductivity results from the pairing of electrons having opposite spins. (Cooper pairs). This pairing is mediated by lattice vibrations and can be disrupted by the close vicinity of magnetic impurities. These impurities must only be sufficiently diluted, paramagnetic and thus without either short or long range magnetic order. For example, few PPM of iron prevent molybdenum from becoming superconducting; this observation has been also made for the commonly used superconducting alloys of transition metals. Several attempts have been made to couple interesting conducting and magnetic behaviors in a molecular compound. A first example was given by [TTF]Mx4C4CF3)4 compounds (M=Cu,Au;X=S,Se) which exhibit low conductivities but undergo a unique , so called spin-Peierls, second-order transition at low temperatures to a nonmagnetic state. The 2,5-XY-DCNQI]2Cu compounds (DCNQI=N,N' dicyanoquinone diimine; X,Y=Me,Cl,Br) were shown to exhibit metallic properties down to low temperatures and a ferromagnetic ordering of the copper spins. In the perelene)2[M(mnt)2] compounds (M=transition metal;mnt=maleonitriledithiolate, [C4N2S2]2--), instabilities typical of one-dimensional conducting(Peierls instability, for the perylene chains) and magnetic [spin Peierls instability, for the M(mnt)2 chains] systems were observed. The first examples of BEDT-TTF based metals with magnetic anions FeX4 and CuX4 have been reported by Day et al. Although these materials did exhibit interesting conducting and magnetic properties, none of them showed superconducting behavior. The Meissner effect is complete at 0.5mT . The electron paramagnetic resonance spectra show one Dysonian in shape resonance due to the conduction electrons of the BEDT-TTF chains and one Lorentzian in shape resonance due to the Fe3+ ions. Electronic band structure calculations based on crystal data obtains at 300K confirm a metallic behavior with both electron and hole pockets in the fermi surface. This phase truly is the first molecule based paramagnetic superconductor. /*---------------------------------------------------------------------*/ P1258 Contraceptive Strategies Near-Term Men : Stopping sperm production with injections of progestin-androgen combinations. Women : Inducing menses with a combination of antiprogestins, antiestrogens, inhibitors of enzymes involved in steroid synthesis Medium Term Women : Preventing sperm passage by modifying mucous secretions from cervical epithelial cells Long Term Men : Preventing sperm maturation by inhibiting epididymal function. Men : Preventing fertilization by causing sperm cells to prematurely release enzymes that otherwise break through the eggs protective coat Women : Inhibiting ovulation using a combination of nonpeptide gonadotropin releasing hormone antagonist and hormones Women : Preventing fertilization of the implantation of a fertilized egg in the uterine lining with various vaccines.