Nanofabrication Equipment & Instrumentation – Penn Nano

Spin Coater
Open Facitlity
Materials: Unknown

University of Pennsylvania Singh Center for Nanotechnology (Penn Nano)

Cee® 200X (Legacy)

Wafer Size: Not Specified

Substrate Type: Not Specified

The Penn Nano equipment page includes imagery of a Cee® 200X Spin Coater within its spinner and solvent processing area, indicating active use of Cee® coating equipment in the facility.

Publication Year: Unknown

Process Overview

This University of Pennsylvania Singh Center equipment page outlines nanofabrication capabilities, including spinner and solvent processing benches where a Cee® 200X Spin Coater is installed. The system is used within these solvent processing areas to support coating and solvent-based lithography workflows as part of standard cleanroom operations.

View Full Publication

Related Research

Off-Stoichiometry Thiol–Ene Polymers: Inclusion of Anchor Groups Using Allylsilanes

Spin Coater
Bio, Microfluidics
Materials: OSTE-AS Polymer

This paper develops OSTE-AS polymers for bonding and integration with silicon wafers and explicitly states that the OSTE-AS prepolymers were deposited on silicon wafers using a Cee® Apogee® Spin Coater module of an X-Pro II Workstation. The paper also reports 100 mm silicon wafers and gives resulting film thicknesses of 12.9 µm, 4.9 µm, and 3.4 µm at 1000, 3000, and 5000 rpm, respectively.

Omnidirectional Circularly Polarized Thermal Radiation Enabled by Chiral Metasurface

Bake Plate, Spin Coater
Sensor
Materials: Photoresist, PMMA

This paper describes fabrication of a chiral metasurface for circularly polarized thermal radiation and includes use of a Cee® Apogee® Spin Coater and Cee® Apogee® Bake Plate in the sample preparation flow, including spin coating of PMMA 950 K A4.

Microfluidic Bioelectrochemical Cell Platform for the Study of Extracellular Electron Uptake in Microbes

Spin Coater
Materials: AZ4620, HMDS, LOR10B, PDMS, Photoresist, S1805, SU-8

This preprint describes fabrication of a glass-based microfluidic bioelectrochemical cell platform and explicitly states that KL8020 HMDS Spin-On Primer was spin coated on 100 mm borosilicate glass wafers using an Apogee® Spin Coater. The broader lithography flow also includes spin-coated LOR 10B, Microposit™ S1805™, AZ P4620, and SU-8 2100.