Juseok Lee scite author profile

Biphasic solid state composites of the type metal/metal oxide or element/element oxide can be synthesized in one pot chemical reactions using so called molecular "single source precursors". Due to their singular genesis these composites show peculiar hetero-structures based on core-shell hierarchies such as superlattices and composite nanospheres or nanowires. They exhibit superior or new functional properties compared to their individual constituent compounds. In the current work, we review in particular the synthetical and mechanistical approach of bi-phasic (Al/Al(2)O(3)) nanostructures such as nanospheres, nanowires and nanoloops using a single source precursor. Other bi-phasic materials of the general formula M/MO(x) (for example M = Ge, Sn, Pb) are addressed for comparison. The impact of different synthetical conditions as well as of modification of surfaces by laser techniques and their technological relevance are presented briefly. Additionally, functional applications of the prepared surfaces are explained with some outstanding case studies. These case studies are primarily concerned with their use as biomaterials and their application in medicine as well as with their use as thin films for optics and functional surfaces.

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Micro- and nanostructured Al2O3 surfaces for controlled vascular endothelial and smooth muscle cell adhesion and proliferation

Aktas

Dörrschuck

Schuh

et al. 2012

Materials Science and Engineering: C

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Reduced myofibroblast differentiation on femtosecond laser treated 316LS stainless steel

Oberringer

Akman

Lee

et al. 2013

Materials Science and Engineering: C

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Development of Multi Scale Structured Al/Al<SUB>2</SUB>O<SUB>3</SUB> Nanowires for Controlled Cell Guidance

Lee¹,

Miró²,

Akkan³

et al. 2013

j biomed nanotechnol

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Cell responses to surface and contact cell guidance are of great interest in bio-applications especially on nano- and micro scale features. Recently we showed selective cell responses on Al/Al2O3, bi-phasic nanowires (NWs). In this context, Al/Al2O3 NWs were synthesized by the chemical vapor deposition of (tBuOAIH2)2. Afterwards, linear periodic nano- and micro structured NWs were formed using laser interference lithography (LIL) technique to study the contact guidance of neurons from rat dorsal root ganglion (DRG), human umbilical vein smooth muscle cells (HUVSMC), human umbilical vein endothelial cells (HUVEC) and human osteoblast (HOB). LIL treatment did not alter surface chemistry of NWs. From our preliminary research LIL patterned NWs lead to alignment of axons contrary to non-patterned NWs. Morphology of HUVSMC changed from poly- to linear shapes and strong alignment was observed while HUVEC and HOB were not affected.

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Guidance of glial cells and neurites from dorsal root ganglia by laser induced periodic patterning of biphasic core/shell nanowires

Lee

Schwarz

Akkan

et al. 2013

Physica Status Solidi (a)

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Modification of topography is an effective tool to control the cellular response such as cell function, adhesion and proliferation on surfaces. In this work, we present a novel method for fabrication of periodic surface structures by laser interference patterning (LIP) of biphasic Al/Al 2 O 3 nanowires (NWs). These structures have a periodicity of 1-8 mm and a depth of 300-600 nm, depending on the incidence angle of the laser beam. Such hierarchical structures are composed of both micro-and nanofeatures. These periodic patterns lead to an alignment of glial cells and an axonal guidance from cultured dorsal root ganglia (DRG), along defined directions. The most pronounced alignment was seen at a periodicity of 2 mm.(a) Random growth of neurites on as-deposited chaotic NWs. (b) Aligned growth of neurites on patterned NWs.

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Juseok Lee

Bi-phasic nanostructures for functional applications

Micro- and nanostructured Al2O3 surfaces for controlled vascular endothelial and smooth muscle cell adhesion and proliferation

Reduced myofibroblast differentiation on femtosecond laser treated 316LS stainless steel

Development of Multi Scale Structured Al/Al<SUB>2</SUB>O<SUB>3</SUB> Nanowires for Controlled Cell Guidance

Guidance of glial cells and neurites from dorsal root ganglia by laser induced periodic patterning of biphasic core/shell nanowires

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