Hao‐Chieh Hsieh scite author profile

Aside from band gap reduction, little is understood about the effect of the tin‐for‐lead substitution on the fundamental optical and optoelectronic properties of metal halide perovskites (MHPs), especially when transitioning from 3D to lower dimensional structures. Herein, we take advantage of the spectroscopic isolation of excitons in 2D MHPs to study the intrinsic differences between lead and tin MHPs. The exciton's spectral fine structure indicates a larger polaron binding energy in tin MHPs. Additionally, the electroabsorption responses of the 2D MHPs demonstrates that tin MHPs have exciton binding energies 1.5–2× lower than that of their lead counterparts. Despite the lower binding energy, the excitons in tin MHPs are more Frenkel‐like with small radii, small polarizabilities, and large dipole moments. These results are interpreted as consequences of small polaron formation and disorder‐induced dipole moments. This work highlights the wide range of intrinsic differences between lead and tin MHPs as well as the complexity of excited states in these systems.

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Precision curved micro hemispherical resonator shells fabricated by poached-egg micro-molding

Xie

Hsieh

Pai

et al. 2012

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Properties of Rhodotorula gracilis d-Amino Acid Oxidase Immobilized on Magnetic Beads through His-Tag

Kuan

Liao

Hsieh

et al. 2008

Journal of Bioscience and Bioengineering

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On-chip on-demand delivery of K+ for in vitro bioelectronics

Dechiraju

Selberg

Jia

et al. 2022

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Bioelectronic devices that interface electronics with biological systems can actuate and control biological processes. The potassium ion plays a vital role in cell membrane physiology, maintaining the cell membrane potential (Vmem) and generating action potentials. In this work, we present two bioelectronic ion pumps that use an electronic signal to modulate the potassium ion concentration in solution. The first ion pump is designed to integrate directly with six-well cell culture plates for optimal ease of integration with in vitro cell culture, and the second on-chip ion pump provides high spatial resolution. These pumps offer increased ease of integration with in vitro systems and demonstrate K+ concentration distribution with high spatial resolution. We systematically investigate the ion pump’s performance using electrical characterization and computational modeling, and we explore closed-loop control of K+ concentration using fluorescent dyes as indicators. As a proof-of-concept, we study the effects of modulating K+ concentration on Vmem of THP-1 macrophages.

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Stabilization of d-amino acid oxidase from Rhodosporidium toruloides by immobilization onto magnetic nanoparticles

et al. 2008

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D-amino acid oxidase from Rhodosporidium toruloides was immobilized onto glutaraldehyde-activated magnetic nanoparticles. Approximately four enzyme molecules were attached to one magnetic nanoparticle when the weight ratio of the enzyme to the support was 0.12. After immobilization, the T(m) was increased from 45 degrees C of the free form to 55 degrees C. In the presence of 20 mM H2O2, the immobilized form retained 93% of its activity after 5 h while the free form was completely inactivated after 3.5 h.

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Hao‐Chieh Hsieh

Low Exciton Binding Energies and Localized Exciton–Polaron States in 2D Tin Halide Perovskites

Precision curved micro hemispherical resonator shells fabricated by poached-egg micro-molding

Properties of Rhodotorula gracilis d-Amino Acid Oxidase Immobilized on Magnetic Beads through His-Tag

On-chip on-demand delivery of K+ for in vitro bioelectronics

Stabilization of d-amino acid oxidase from Rhodosporidium toruloides by immobilization onto magnetic nanoparticles

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