Jihoon Chung scite author profile

The laser-based curing of printed nanoparticle ink to create microlines ͑resistors͒ of electrical resistivity approaching that of bulk gold was investigated. The present work relies on laser absorption in both the nanoparticle ink and the sintered gold layer, as well as the transport of thermal energy in the substrate and the resulting solvent vaporization and nanoparticle deposition and sintering. The morphology and electrical properties of the gold line can be controlled by modulating the spatial distribution of the laser beam intensity. Based on the understanding of the underlying physics, a process that circumvents a serious drawback on the functionality of cured gold microlines is produced. Microconductors with resistivity approaching that of bulk gold are produced, while loss of gold nanoparticles and cross sectional nonuniformities are avoided.

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Fabrication of multilayer passive and active electric components on polymer using inkjet printing and low temperature laser processing

Chung

Pan

et al. 2007

Sensors and Actuators A: Physical

164

114

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A continental view of pine‐associated ectomycorrhizal fungal spore banks: a quiescent functional guild with a strong biogeographic pattern

et al. 2015

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SummaryEcologists have long acknowledged the importance of seed banks; yet, despite the fact that many plants rely on mycorrhizal fungi for survival and growth, the structure of ectomycorrhizal (ECM) fungal spore banks remains poorly understood. The primary goal of this study was to assess the geographic structure in pine-associated ECM fungal spore banks across the North American continent.Soils were collected from 19 plots in forests across North America. Fresh soils were pyrosequenced for fungal internal transcribed spacer (ITS) amplicons. Adjacent soil cores were dried and bioassayed with pine seedlings, and colonized roots were pyrosequenced to detect resistant propagules of ECM fungi.The results showed that ECM spore banks correlated strongly with biogeographic location, but not with the identity of congeneric plant hosts. Minimal community overlap was found between resident ECM fungi vs those in spore banks, and spore bank assemblages were relatively simple and dominated by Rhizopogon, Wilcoxina, Cenococcum, Thelephora, Tuber, Laccaria and Suillus.Similar to plant seed banks, ECM fungal spore banks are, in general, depauperate, and represent a small and rare subset of the mature forest soil fungal community. Yet, they may be extremely important in fungal colonization after large-scale disturbances such as clear cuts and forest fires.

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Experimental study on spreading and evaporation of inkjet printed pico-liter droplet on a heated substrate

Lim

Han

Chung

et al. 2009

International Journal of Heat and Mass Transfer

156

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Metal nanoparticle direct inkjet printing for low-temperature 3D micro metal structure fabrication

Chung

Hotz

et al. 2010

J. Micromech. Microeng.

160

100

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Inkjet printing of functional materials is a key technology toward ultra-low-cost, large-area electronics. We demonstrate low-temperature 3D micro metal structure fabrication by direct inkjet printing of metal nanoparticles (NPs) as a versatile, direct 3D metal structuring approach representing an alternative to conventional vacuum deposition and photolithographic methods. Metal NP ink was inkjet-printed to exploit the large melting temperature drop of the nanomaterial and the ease of the NP ink formulation. Parametric studies on the basic conditions for stable 3D inkjet printing of NP ink were carried out. Furthermore, diverse 3D metal microstructures, including micro metal pillar arrays, helices, zigzag and micro bridges were demonstrated and electrical characterization was performed. Since the process requires low temperature, it carries substantial potential for fabrication of electronics on a plastic substrate.

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Microstructuring by printing and laser curing of nanoparticle solutions

et al. 2003

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In this letter, the process of printing and laser curing of nanoparticle solutions is presented. A liquid solvent is employed as the carrier of gold nanoparticles (the material of interest in this study) possessing a low melting temperature compared to that of bulk gold. Using a specifically designed printing system, the gold nanoparticle solution is deposited on a substrate and cured with laser radiation. In this manner, the potential of writing gold structures on temperature sensitive substrates is demonstrated. The interaction between the laser radiation and nanoparticles drives the solvent evaporation and controls the quality of the microstructures printing process. The latter is also affected by thermocapillary flow at the free surface, developing during the curing process. An optical method for estimating the curing times is also developed and discussed.

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A simple pyrocosm for studying soil microbial response to fire reveals a rapid, massive response by Pyronema species

et al. 2020

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We have designed a pyrocosm to enable fine-scale dissection of post-fire soil microbial communities. Using it we show that the peak soil temperature achieved at a given depth occurs hours after the fire is out, lingers near this peak for a significant time, and is accurately predicted by soil depth and the mass of charcoal burned. Flash fuels that produce no large coals were found to have a negligible soil heating effect. Coupling this system with Illumina MiSeq sequencing of the control and post-fire soil we show that we can stimulate a rapid, massive response by Pyronema, a well-known genus of pyrophilous fungus, within two weeks of a test fire. This specific stimulation occurs in a background of many other fungal taxa that do not change noticeably with the fire, although there is an overall reduction in richness and evenness. We introduce a thermo-chemical gradient model to summarize the way that heat, soil depth and altered soil chemistry interact to create a predictable, depthstructured habitat for microbes in post-fire soils. Coupling this model with the temperature relationships found in the pyrocosms, we predict that the width of a survivable "goldilocks zone", which achieves temperatures that select for postfire-adapted microbes, will stay relatively constant across a range of fuel loads. In addition we predict that a larger necromass zone, containing labile carbon and nutrients from recently heat-killed organisms, will increase in size rapidly with addition of fuel and then remain nearly constant in size over a broad range of fuel loads. The simplicity of this experimental system, coupled with the availability of a set of sequenced, assembled and annotated genomes of pyrophilous fungi, offers a powerful tool for dissecting the ecology of post-fire microbial communities. OPEN ACCESSCitation: Bruns TD, Chung JA, Carver AA, Glassman SI (2020) A simple pyrocosm for studying soil microbial response to fire reveals a rapid, massive response by Pyronema species. PLoS ONE 15(3): e0222691. https://doi.

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In-tandem deposition and sintering of printed gold nanoparticle inks induced by continuous Gaussian laser irradiation

Chung

Bieri

et al. 2004

Appl. Phys. A

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Jihoon Chung

Conductor microstructures by laser curing of printed gold nanoparticle ink

Fabrication of multilayer passive and active electric components on polymer using inkjet printing and low temperature laser processing

A continental view of pine‐associated ectomycorrhizal fungal spore banks: a quiescent functional guild with a strong biogeographic pattern

Experimental study on spreading and evaporation of inkjet printed pico-liter droplet on a heated substrate

Metal nanoparticle direct inkjet printing for low-temperature 3D micro metal structure fabrication

Microstructuring by printing and laser curing of nanoparticle solutions

A simple pyrocosm for studying soil microbial response to fire reveals a rapid, massive response by Pyronema species

In-tandem deposition and sintering of printed gold nanoparticle inks induced by continuous Gaussian laser irradiation

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