Jaeyeon Hwang scite author profile

The hydrophobicity of the cicada wing originates from its naturally occurring, surface nano-structure. The nano-structure of the cicada wing consists of an array of nano-sized pillars, 100 nm in diameter and 300 nm in height. In this study, the nano-structure of the cicada wing was successfully duplicated by using hot embossing lithography and UV nanoimprint lithography (NIL). The diameter and pitch of replication were the same as those of the original cicada wing and the height was a little smaller than that of the original master. The transmittance of the hot embossed PVC film was increased by 2-6% compared with that of the bare PVC film. The hydrophobicity was measured by water contact angle measurements. The water contact angle of the replica, made of UV cured polymer, was 132 degrees +/- 2 degrees , which was slightly lower than that of the original cicada wing (138 degrees +/- 2 degrees ), but much higher than that of the UV cured polymer surface without any nano-sized pillars (86 degrees ).

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Nickel-Catalyzed Reduction of Secondary and Tertiary Amides

Simmons

Hoffmann

Hwang

et al. 2017

Org. Lett.

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The nickel-catalyzed reduction of secondary and tertiary amides to give amine products is reported. The transformation is tolerant of extensive variation with respect to the amide substrate, proceeds in the presence of esters and epimerizable stereocenters, and can be used to achieve the reduction of lactams. Moreover, this methodology provides a simple tactic for accessing medicinally relevant α-deuterated amines.

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Application of Au-Sn eutectic bonding in hermetic radio-frequency microelectromechanical system wafer level packaging

Wang

Choa

Kim

et al. 2006

Journal of Elec Materi

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Characterization of FK506 Biosynthetic Intermediates Involved in Post-PKS Elaboration

Ban¹,

Shinde²,

Hwang³

et al. 2013

J. Nat. Prod.

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The post-PKS modification steps of FK506 biosynthesis include C9-oxidation and 31-O-methylation, but the sequence of these reactions and the exact route have remained unclear. This study details the post-PKS modification pathways in FK506 biosynthesis through the identification of all intermediates and in vitro enzymatic reactions of the cytochrome P450 hydroxylase FkbD and the methyltransferase FkbM. These results complete our understanding of post-PKS modification steps to FK506 showing the substrate flexibility of two enzymes involved and the existence of two parallel biosynthetic routes to FK506.

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Jaeyeon Hwang

Enhancing the output power of GaN-based LEDs grown on wet-etched patterned sapphire substrates

Replication of cicada wing’s nano-patterns by hot embossing and UV nanoimprinting

Nickel-Catalyzed Reduction of Secondary and Tertiary Amides

Application of Au-Sn eutectic bonding in hermetic radio-frequency microelectromechanical system wafer level packaging

Characterization of FK506 Biosynthetic Intermediates Involved in Post-PKS Elaboration

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