Efrat Shukrun scite author profile

A sol, aqueous solution-based ink is presented for fabrication of 3D transparent silica glass objects with complex geometries, by a simple 3D printing process conducted at room temperature. The ink combines a hybrid ceramic precursor that can undergo both the photopolymerization reaction and a sol-gel process, both in the solution form, without any particles. The printing is conducted by localized photopolymerization with the use of a low-cost 3D printer. Following printing, upon aging and densifying, the resulting objects convert from a gel to a xerogel and then to a fused silica. The printed objects, which are composed of fused silica, are transparent and have tunable density and refractive indices.

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4D printing shape memory polymers for dynamic jewellery and fashionwear

Zarek

Layani

Eliazar

et al. 2016

Virtual and Physical Prototyping

113

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Self‐Assembly of Perovskite for Fabrication of Semitransparent Perovskite Solar Cells

Aharon

Layani

Cohen

et al. 2015

Adv Materials Inter

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This work reports on the preparation of semitransparent perovskite solar cells. The cells transparency is achieved through a unique wet deposition technique that creates perovskite grids with various dimensions. The perovskite grid is deposited on a mesoporous TiO2 layer, followed by hole transport material deposition and evaporation of a semitransparent gold film. Control of the transparency of the solar cells is achieved by changing the perovskite solution concentration and the mesh openings. The semitransparent cells demonstrate 20–70% transparency with a power conversion efficiency of 5% at 20% transparency. This is the first demonstration of the possibility to create a controlled perovskite pattern using a direct mesh‐assisted assembly deposition method for fabrication of a semitransparent perovskite‐based solar cell.

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3D‐Printed Organic–Ceramic Complex Hybrid Structures with High Silica Content

2018

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Hybrid organic–inorganic sol gel inks that can undergo both condensation and radical polymerization are developed, enabling fabrication of complex objects by additive manufacturing technology, yielding 3D objects with superior properties. The 3D objects have very high silica content and are printed by digital light processing commercial printers. The printed lightweight objects are characterized by excellent mechanical strength compared to currently used high‐performance polymers (139 MPa), very high stability at elevated temperatures (heat deflection temperature >270 °C), high transparency (89%), and lack of cracks, with glossiness similar to silica glasses. The new inks fill the gap in additive manufacturing of objects composed of ceramics only and organic materials only, thus enabling harnessing the advantages of both worlds of materials.

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Solar Cells: Self‐Assembly of Perovskite for Fabrication of Semitransparent Perovskite Solar Cells (Adv. Mater. Interfaces 12/2015)

Aharon

Layani

Cohen

et al. 2015

Adv Materials Inter

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Efrat Shukrun

Additive Manufacturing of Transparent Silica Glass from Solutions

4D printing shape memory polymers for dynamic jewellery and fashionwear

Self‐Assembly of Perovskite for Fabrication of Semitransparent Perovskite Solar Cells

3D‐Printed Organic–Ceramic Complex Hybrid Structures with High Silica Content

Solar Cells: Self‐Assembly of Perovskite for Fabrication of Semitransparent Perovskite Solar Cells (Adv. Mater. Interfaces 12/2015)

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