Sung Kyu Park scite author profile

Amorphous metal-oxide semiconductors have emerged as potential replacements for organic and silicon materials in thin-film electronics. The high carrier mobility in the amorphous state, and excellent large-area uniformity, have extended their applications to active-matrix electronics, including displays, sensor arrays and X-ray detectors. Moreover, their solution processability and optical transparency have opened new horizons for low-cost printable and transparent electronics on plastic substrates. But metal-oxide formation by the sol-gel route requires an annealing step at relatively high temperature, which has prevented the incorporation of these materials with the polymer substrates used in high-performance flexible electronics. Here we report a general method for forming high-performance and operationally stable metal-oxide semiconductors at room temperature, by deep-ultraviolet photochemical activation of sol-gel films. Deep-ultraviolet irradiation induces efficient condensation and densification of oxide semiconducting films by photochemical activation at low temperature. This photochemical activation is applicable to numerous metal-oxide semiconductors, and the performance (in terms of transistor mobility and operational stability) of thin-film transistors fabricated by this route compares favourably with that of thin-film transistors based on thermally annealed materials. The field-effect mobilities of the photo-activated metal-oxide semiconductors are as high as 14 and 7 cm(2) V(-1) s(-1) (with an Al(2)O(3) gate insulator) on glass and polymer substrates, respectively; and seven-stage ring oscillators fabricated on polymer substrates operate with an oscillation frequency of more than 340 kHz, corresponding to a propagation delay of less than 210 nanoseconds per stage.

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Identification of Long-Lived Proteins Reveals Exceptional Stability of Essential Cellular Structures

Toyama

Savas

Park

et al. 2013

Cell

491

609

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Intracellular proteins with long lifespans have recently been linked to age-dependent defects, ranging from decreased fertility to the functional decline of neurons. Why long-lived proteins exist in metabolically active cellular environments and how they are maintained over time remains poorly understood. Here we provide a system-wide identification of proteins with exceptional lifespans in the rat brain. These proteins are inefficiently replenished despite being translated robustly throughout adulthood. Using nucleoporins as a paradigm for long-term protein persistence, we found that nuclear pore complexes (NPCs) are maintained over a cell’s life through slow but finite exchange of even its most stable subcomplexes. This maintenance is limited, however, as some nucleoporin levels decrease during aging, providing a rationale for the previously observed age-dependent deterioration of NPC function. Our identification of a long-lived proteome reveals cellular components that are at increased risk for damage accumulation, linking long-term protein persistence to the cellular aging process.

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High mobility solution processed 6,13-bis(triisopropyl-silylethynyl) pentacene organic thin film transistors

et al. 2007

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Using the small molecule organic semiconductor 6,13-bis(triisopropyl-silylethynyl) pentacene (TIPS-pentacene), the authors have fabricated the solution-processed organic thin film transistors (OTFTs) with carrier mobility >1cm2∕Vs, current on/off ratio greater than 107, and subthreshold slope <0.3V/decade. The high mobility TIPS-pentacene solution-processed films are deposited from high boiling point solvents and show strong molecular ordering including molecular terracing. Film ordering varies substantially for different solvents and film deposition techniques and OTFT mobility correlates well with film ordering.

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The Proteomes of Human Parotid and Submandibular/Sublingual Gland Salivas Collected as the Ductal Secretions

et al. 2008

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Saliva is a body fluid with important functions in oral and general health. A consortium of three research groups catalogued the proteins in human saliva collected as the ductal secretions: 1166 identifications-914 in parotid and 917 in submandibular/sublingual saliva-were made. The results showed that a high proportion of proteins that are found in plasma and/or tears are also present in saliva along with unique components. The proteins identified are involved in numerous molecular processes ranging from structural functions to enzymatic/catalytic activities. As expected, the majority mapped to the extracellular and secretory compartments. An immunoblot approach was used to validate the presence in saliva of a subset of the proteins identified by mass spectrometric approaches. These experiments focused on novel constituents and proteins for which the peptide evidence was relatively weak. Ultimately, information derived from the work reported here and related published studies can be used to translate blood-based clinical laboratory tests into a format that utilizes saliva. Additionally, a catalogue of the salivary proteome of healthy individuals allows future analyses of salivary samples from individuals with oral and systemic diseases, with the goal of identifying biomarkers with diagnostic and/or prognostic value for these conditions; another possibility is the discovery of therapeutic targets.

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Brain‐Inspired Photonic Neuromorphic Devices using Photodynamic Amorphous Oxide Semiconductors and their Persistent Photoconductivity

et al. 2017

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The combination of a neuromorphic architecture and photonic computing may open up a new era for computational systems owing to the possibility of attaining high bandwidths and the low-computation-power requirements. Here, the demonstration of photonic neuromorphic devices based on amorphous oxide semiconductors (AOSs) that mimic major synaptic functions, such as short-term memory/long-term memory, spike-timing-dependent plasticity, and neural facilitation, is reported. The synaptic functions are successfully emulated using the inherent persistent photoconductivity (PPC) characteristic of AOSs. Systematic analysis of the dynamics of photogenerated carriers for various AOSs is carried out to understand the fundamental mechanisms underlying the photoinduced carrier-generation and relaxation behaviors, and to search for a proper channel material for photonic neuromorphic devices. It is found that the activation energy for the neutralization of ionized oxygen vacancies has a significant influence on the photocarrier-generation and time-variant recovery behaviors of AOSs, affecting the PPC behavior.

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A quantitative analysis software tool for mass spectrometry–based proteomics

et al. 2008

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We describe Census, a quantitative software tool compatible with many labeling strategies as well as with label-free analyses, single-stage mass spectrometry (MS1) and tandem mass spectrometry (MS/MS) scans, and high-and low-resolution mass spectrometry data. Census uses robust algorithms to address poor-quality measurements and improve quantitative efficiency, and it can support several input file formats. We tested Census with stable-isotope labeling analyses as well as label-free analyses. Keywords mass spectrometry; quantification; label free; metabolic labelingIn recent years, global quantification using mass spectrometry has garnered a significant level of interest due to the emergence of fields that rely on large scale profiling of peptides/ proteins (proteomics) and small molecules (metabolomics). In the field of proteomics, the identification of large numbers of peptides has become commonplace with the advent of new instrumentation(1-7) and informatics tools(8-11), however, progress with regards to the quantification process has been hampered by the extreme analytical challenges.In general, peptide/protein quantification by mass spectrometry is achieved via either stable isotope labeling or a label free approach. Stable isotope labeling has become the core technology for high throughput peptide quantification efforts employing mass spectrometry. Quantification is typically achieved by comparison of an unlabeled or "light" peptide (i.e., comprised of naturally abundant stable isotopes) to an internal standard that is chemically identical with the exception of atoms that are enriched with a "heavy" stable isotope. While the stable isotope labeling approach has been the most commonly employed over the past several years, label free approaches have been gaining momentum recently due to the inherent simplicity, increased throughput, and low cost. Several strategies for label free differential expression analysis have emerged and can generally be divided into two groups; those that are fundamentally based on identification of peptides prior to quantification and those that rely on first stage MS data alone. (Fig. 1). Census is based on a program previously written in our lab called RelEx(12), but has been re-written with many new features that significantly improve the accuracy and precision of resulting measurements and drastically improves computational performance (Supplementary Information online and Table 1). Census is capable of quantification from either MS or MS/MS scans and is thus able to process data generated from data-independent acquisition(13), SRM, or MRM analyses. Other features incorporated into Census include the ability to use high resolution and high mass accuracy MS data for improved quantification, as well as the ability to perform quantitative analyses based on both spectral counting and an LC-MS peak area approach utilizing chromatogram alignment. To minimize false positive measurements and improve protein/peptide ratio accuracy Census incorporates multiple algorithms such as...

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Quantitative Mass Spectrometry Identifies Insulin Signaling Targets in C. elegans

Dong

Venable

et al. 2007

Science

305

309

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DAF-2, an insulin receptor-like protein, regulates metabolism, development, and aging in Caenorhabditis elegans. In a quantitative proteomic study, we identified 86 proteins that were more or less abundant in long-lived daf-2 mutant worms than in wild-type worms. Genetic studies on a subset of these proteins indicated that they act in one or more processes regulated by DAF-2, including entry into the dauer developmental stage and aging. In particular, we discovered a compensatory mechanism activated in response to reduced DAF-2 signaling, which involves the protein phosphatase calcineurin.

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Chromophore Fluorination Enhances Crystallization and Stability of Soluble Anthradithiophene Semiconductors

et al. 2008

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We report dramatic improvements in the stability and crystallinity arising from partial fluorination of soluble anthradithiophene derivatives. These fluorinated materials still behave as p-type semiconductors but with dramatic increases in thermal and photostability compared to the non-fluorinated derivatives. The triethylsilyl-substituted material forms highly crystalline films even from spin-cast solutions, leading to devices with maximum hole mobility greater than 1.0 cm(2)/V s. In contrast, the triisopropylsilyl derivative forms large, high-quality crystals that could serve as the substrate for transistor fabrication. For this compound, mobility as high as 0.1 cm(2)/V s was measured on the free-standing crystal.

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Sung Kyu Park

Flexible metal-oxide devices made by room-temperature photochemical activation of sol–gel films

Identification of Long-Lived Proteins Reveals Exceptional Stability of Essential Cellular Structures

High mobility solution processed 6,13-bis(triisopropyl-silylethynyl) pentacene organic thin film transistors

The Proteomes of Human Parotid and Submandibular/Sublingual Gland Salivas Collected as the Ductal Secretions

Brain‐Inspired Photonic Neuromorphic Devices using Photodynamic Amorphous Oxide Semiconductors and their Persistent Photoconductivity

A quantitative analysis software tool for mass spectrometry–based proteomics

Quantitative Mass Spectrometry Identifies Insulin Signaling Targets in C. elegans

Chromophore Fluorination Enhances Crystallization and Stability of Soluble Anthradithiophene Semiconductors

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