K-Rich Spinel Interface of Air-Stable Layered Oxide Cathodes for Potassium-Ion Batteries.

Potassium-containing transition metal layered oxides (KTmO), although possessing high energy density and suitable operating voltage, suffer from severe hygroscopic properties due to their two dimensional (2D) layered structure. Their air sensitivity compromises structural stability during prolonged air exposure, therefore increasing the cost. The common sense for designing air-stable layered cathode materials is to avoid contact with HO molecules.

Chiral Phonons in Moiré Superlattices.

We discover chiral phonons at the lowest energy bands in moiré superlattices. The moiré chiral phonons we uncover are the collective excitations of the stacking domains. Their origin is uniquely attributed to the stacking configurations whose interlayer binding energy breaks the symmetry on the moiré length scale.

Tunable Layer Circular Photogalvanic Effect in Twisted Bilayers.

We develop a general theory of the layer circular photogalvanic effect (LCPGE) in quasi-two-dimensional chiral bilayers, which refers to the appearance of a polarization-dependent, out-of-plane static dipole moment induced by circularly polarized light. We elucidate the geometric origin of the LCPGE as two types of interlayer coordinate shift weighted by the quantum metric tensor and the Berry curvature, respectively. As a concrete example, we calculate the LCPGE in twisted bilayer graphene, and find that it exhibits a resonance peak whose frequency can be tuned from visible to infrared as the twisting angle varies.

Thermal Hall Effect Induced by Magnon-Phonon Interactions.

We propose a new mechanism for the thermal Hall effect in exchange spin-wave systems, which is induced by the magnon-phonon interaction. Using symmetry arguments, we first show that this effect is quite general, and exists whenever the mirror symmetry in the direction of the magnetization is broken. We then demonstrate our result in a collinear ferromagnet on a square lattice, with perpendicular easy-axis anisotropy and Dzyaloshinskii-Moriya interaction from mirror symmetry breaking.

Symmetry analysis of transport properties in helical superconductor junctions.

We study the discrete symmetries satisfied by helical p-wave superconductors with the d-vectors [Formula: see text] or [Formula: see text] and the transformations brought by symmetry operations to ferromagnet and spin-singlet superconductors, which show intimate associations with the transport properties in heterojunctions, including helical superconductors. In particular, the partial symmetries of the Hamiltonian under spin-rotation and gauge-rotation operations are responsible for the novel invariances of the conductance in tunnel junctions and the new selection rules for the lowest current and peculiar phase diagrams in Josephson junctions, which were reported recently. The symmetries of constructed free energies for Josephson junctions are also analyzed, and are consistent with the results from the Hamiltonian.

Automated synthesis of 18F-fluoropropoxytryptophan for amino acid transporter system imaging.

Objective: This study was to develop a cGMP grade of [(18)F]fluoropropoxytryptophan ((18)F-FTP) to assess tryptophan transporters using an automated synthesizer.

Methods: Tosylpropoxytryptophan (Ts-TP) was reacted with K(18)F/kryptofix complex. After column purification, solvent evaporation, and hydrolysis, the identity and purity of the product were validated by radio-TLC (1M-ammonium acetate : methanol = 4 : 1) and HPLC (C-18 column, methanol : water = 7 : 3) analyses.

Quantum anomalous Hall insulator of composite fermions.

We show that a weak hexagonal periodic potential can transform a two-dimensional electron gas with an even-denominator magnetic filling factor into an quantum anomalous hall insulator of composite fermions, giving rise to the fractionally quantized Hall effect. The system provides a realization of the Haldane honeycomb-net model, albeit in a composite fermion system. We further propose a trial wave function for the state, and numerically evaluate its relative stability against the competing Hofstadter state.

Synthesis and biological evaluation of O-[3-18F-fluoropropyl]-α-methyl tyrosine in mesothelioma-bearing rodents.

Radiolabeled tyrosine analogs enter cancer cells via upregulated amino acid transporter system and have been shown to be superior to (18)F-fluoro-2-deoxy-D-glucose ((18)F-FDG) in differential diagnosis in cancers. In this study, we synthesized O-[3-(19)F-fluoropropyl]-α-methyl tyrosine ((19)F-FPAMT) and used manual and automated methods to synthesize O-[3-(18)F-fluoropropyl]-α-methyl tyrosine ((18)F-FPAMT) in three steps: nucleophilic substitution, deprotection of butoxycarbonyl, and deesterification. Manual and automated synthesis methods produced (18)F-FPAMT with a radiochemical purity >96%.

⁹⁹mTc-N4amG: synthesis biodistribution and imaging in breast tumor-bearing rodents.

(99m)Tc-N4-guanine ((99m)Tc-N4amG) was synthesized and evaluated in this study. Cellular uptake and cellular fraction studies were performed to evaluate the cell penetrating ability. Biodistribution and planar imaging were conducted in breast tumor-bearing rats.

Development of (99m)Tc-EC-tyrosine for early detection of breast cancer tumor response to the anticancer drug melphalan.

Rationale And Objectives: Radiolabeled tyrosine analogues that have been successfully used in tumor imaging accumulate in tumor cells via an upregulated L-type amino acid transporter system. The anticancer drug melphalan is an L-type amino acid transporter substrate. Therefore, radiolabeled tyrosine analogues may have great potential in evaluating treatment responses to melphalan.

Molecular imaging of mesothelioma with (99m)Tc-ECG and (68)Ga-ECG.

We have developed ethylenedicysteine-glucosamine (ECG) as an alternative to (18)F-fluoro-2-deoxy-D-glucose ((18)F-FDG) for cancer imaging. ECG localizes in the nuclear components of cells via the hexosamine biosynthetic pathway. This study was to evaluate the feasibility of imaging mesothelioma with (99m)Tc-ECG and (68)Ga-ECG.

Development of tyrosine-based radiotracer 99mTc-N4-Tyrosine for breast cancer imaging.

The purpose of this study was to develop an efficient way to synthesize (99m)Tc-O-[3-(1,4,8,11-tetraazabicyclohexadecane)-propyl]-tyrosine ((99m)Tc-N4-Tyrosine), a novel amino acid-based radiotracer, and evaluate its potential in breast cancer gamma imaging. Precursor N4-Tyrosine was synthesized using a 5-step procedure, and its total synthesis yield was 38%. It was successfully labeled with (99m)Tc with high radiochemical purity (>95%).

Synthesis and evaluation of amino acid-based radiotracer 99mTc-N4-AMT for breast cancer imaging.

Purpose: This study was to develop an efficient synthesis of (99m)Tc-O-[3-(1,4,8,11-tetraazabicyclohexadecane)-propyl]-α-methyl tyrosine ((99m)Tc-N4-AMT) and evaluate its potential in cancer imaging.

Methods: N4-AMT was synthesized by reacting N4-oxalate and 3-bromopropyl AMT (N-BOC, ethyl ester). In vitro cellular uptake kinetics of (99m)Tc-N4-AMT was assessed in rat mammary tumor cells.

Synthesis of (99m)Tc-EC-AMT as an imaging probe for amino acid transporter systems in breast cancer.

Objective: This study was to develop a (99m)Tc-labeled alpha-methyl tyrosine (AMT) using L,L-ethylenedicysteine (EC) as a chelator and to evaluate its potential in breast tumor imaging in rodents.

Methods: EC-AMT was synthesized by reacting EC and 3-bromopropyl AMT (N-BOC, ethyl ester) in ethanol/potassium carbonate solution. EC-AMT was labeled with (99m)Tc in the presence of tin (II) chloride.

[A cytogenetic and molecular genetic study on microdeletion of AZF region on Y chromosome].

Objective: To study the morphology of Y chromosome and microdeletion of the correlated specific azoospermia factor(AZF) region on Y chromosome in cases of azoospermia and to identify the genetic diagnosis made for male infertility patients.

Methods: Peripheral blood samples were taken from two patients with azoospermia, and then were examined by use of G banding, C banding cytogenetic analysis and multiplex polymerase chain reaction (PCR) microdeletion analysis.

Results: The karyotypes of the two cases were 45, X, -Y, -22, +der(Y)t(Y;22)(q11.