Wei‐Chung Lo scite author profile

The spectroscopic and photophysical properties of three gold( 1)-acetylide complexes [N (PPh,),] -[Au(CzCPh),], [Au(PPh,)(C-CPh)] and [{Au(C-CPh)},(p-dppe)] [dppe = 1,2-bis(diphenyIphosphino)ethane] are described. X-Ray crystal analysis of the latter showed a weak metal-metal interaction in the solid state with the shortest Au -Au separation being 3.1 53(2) A. The gold(1)acetylide complexes have long-lived and emissive ,(n,n*) excited states in solutions at room temperature. The photoreaction of [Au( PPh,) (C-CPh)] with methyl viologen has been investigated by Stern-Volmer quenching and flash-photolysis experiments.

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Synthesis, Crystal Structures, and Magnetic Properties of a Series of Linear Pentanickel(II) Complexes: [Ni₅(μ₅-tpda)₄X₂] (X = Cl^-, CN^-, N₃^-, NCS^-) and [Ni₅(μ₅-tpda)₄(CH₃CN)₂]- (PF₆)₂ (tpda^2- = the Tripyridyldiamido Dianion)

Wang

Chou

et al. 1998

Inorg. Chem.

148

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The synthesis, crystal structures, and magnetic properties of linear pentanuclear complexes, [Ni(5)(&mgr;(5)-tpda)(4)X(2)](n)()(+) [tpdaH(2) = tripyridyldiamine, with different axial ligands X = Cl(-) (1), CN(-) (2), N(3)(-) (3), and NCS(-) (4) (n = 0) and CH(3)CN (5) (n = 2)], are reported. All of the [Ni(5)(tpda)(4)](2+) moieties are isostructral and involve a Ni(5) linear chain unit with all of the angleNi-Ni-Ni being nearly 180 degrees, terminated by the two axial ligands. The pentanuclear linear metal chain is helically wrapped by four syn-syn-syn-syn type tpda(2-) ligands. There are two types of Ni-Ni distances existing in these complexes. The terminal Ni-Ni distances bonded with the axial ligand are longer (2.35-2.40 Å) and affected by various axial ligands. The inner Ni-Ni distances are very short and remain constant ( approximately 2.30 Å). The relationship between terminal Ni-Ni distances and properties of the axial ligands on 1-5 will be discussed. Two terminal Ni(II) ions bonded with the axial ligands are in a square-pyramidal (NiN(4)X) environment and exhibit long Ni-N bonds ( approximately 2.10 Å) which are consistent with a high-spin Ni(II) configuration. The inner three Ni(II) ions display short Ni-N ( approximately 1.90 Å) bond distances which are consistent with a square-planar (NiN(4)), diamagnetic arrangement of a low-spin Ni(II) configuration. All compounds exhibit similar magnetic behavior, indicating an antiferromagnetic interaction of two terminal high-spin Ni(II) ions in these complexes. The XANES (X-ray absorption near-edge absorption spectroscopy) spectra also confirm the existence of the high-spin and low-spin Ni(II) ions in these complexes.

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A 25.6 W 13.56 MHz wireless power transfer system with a 94% efficiency GaN Class-E power amplifier

Chen

Chinga

Yoshida

et al. 2012

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In this work, we propose the design and implementation of a 13.56 MHz GaN Class-E power amplifier, which takes into account transistor parasitic effects. The design uses the parasitic capacitance of the transistor to replace the charging capacitance, simplifying the circuit structure and obtaining a 93.6% efficiency at output power of 26.8 W. In addition, a wireless power transfer system using the proposed Class-E amplifier is demonstrated, achieving a 73.4% system efficiency when the power delivered to the load is 25.6 W. Index Terms -Power transmission, energy efficiency, power MOSFET, silicon carbide, gallium nitride, power amplifiers.

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16.3 A 28nm 384kb 6T-SRAM Computation-in-Memory Macro with 8b Precision for AI Edge Chips

Chou

Liu

et al. 2021

113

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Wei‐Chung Lo

Luminescent gold(I) acetylide complexes. Photophysical and photoredox properties and crystal structure of [{Au(CCPh)}₂(µ-Ph₂PCH₂CH₂PPh₂)]

Synthesis, Crystal Structures, and Magnetic Properties of a Series of Linear Pentanickel(II) Complexes: [Ni₅(μ₅-tpda)₄X₂] (X = Cl^-, CN^-, N₃^-, NCS^-) and [Ni₅(μ₅-tpda)₄(CH₃CN)₂]- (PF₆)₂ (tpda^2- = the Tripyridyldiamido Dianion)

A 25.6 W 13.56 MHz wireless power transfer system with a 94% efficiency GaN Class-E power amplifier

16.3 A 28nm 384kb 6T-SRAM Computation-in-Memory Macro with 8b Precision for AI Edge Chips

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Wei‐Chung Lo

Luminescent gold(I) acetylide complexes. Photophysical and photoredox properties and crystal structure of [{Au(CCPh)}2(µ-Ph2PCH2CH2PPh2)]

Synthesis, Crystal Structures, and Magnetic Properties of a Series of Linear Pentanickel(II) Complexes: [Ni5(μ5-tpda)4X2] (X = Cl-, CN-, N3-, NCS-) and [Ni5(μ5-tpda)4(CH3CN)2]- (PF6)2 (tpda2- = the Tripyridyldiamido Dianion)

A 25.6 W 13.56 MHz wireless power transfer system with a 94% efficiency GaN Class-E power amplifier

16.3 A 28nm 384kb 6T-SRAM Computation-in-Memory Macro with 8b Precision for AI Edge Chips

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Product

Resources

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Luminescent gold(I) acetylide complexes. Photophysical and photoredox properties and crystal structure of [{Au(CCPh)}₂(µ-Ph₂PCH₂CH₂PPh₂)]

Synthesis, Crystal Structures, and Magnetic Properties of a Series of Linear Pentanickel(II) Complexes: [Ni₅(μ₅-tpda)₄X₂] (X = Cl^-, CN^-, N₃^-, NCS^-) and [Ni₅(μ₅-tpda)₄(CH₃CN)₂]- (PF₆)₂ (tpda^2- = the Tripyridyldiamido Dianion)