Your search keyword '"Stefan Detterbeck"' showing total 4 results

1. All-Wet Stripping of FEOL Photoresist Using Mixtures of Sulphuric Acid

Author

Sally Ann Henry, Stefan Detterbeck, Thomas Hellweg, Michael Kagerer, Mauro Alessandri, Ladislaus Brilz, Leo Archer, and Enrico Bellandi

Subjects

chemistry.chemical_compound, chemistry, Inorganic chemistry, General Materials Science, Sulfuric acid, Photoresist, Condensed Matter Physics, Hydrogen peroxide, Stripping (fiber), Atomic and Molecular Physics, and Optics

Published

2007

2. An alternative approach to backside via reveal (BVR) for a via-middle through-Silicon via (TSV) flow

Author

Stefan Detterbeck, Lai Wei, Joe Richardson, CheePing Lee, Tom Mountsier, Qing Xu, Prashant Meshram, Sanjay Gopinath, Jengyi Yu, Praveen Nalla, and Matthew S. Thorum

Subjects

Engineering drawing, Materials science, Through-silicon via, business.industry, Isotropic etching, chemistry.chemical_compound, Silicon nitride, chemistry, Etching (microfabrication), Chemical-mechanical planarization, Optoelectronics, Wafer, Dry etching, Reactive-ion etching, business

Abstract

An alternative scheme has been developed to combine three major backside via reveal (BVR) processes, including (a) wafer polishing, (b) Si recess etching, and (c) wet clean, into an integrated wet etch process to replace the high cost chemical-mechanical planarization (CMP) and dry etching steps. The process combines two steps on a single-wafer platform: (1) bulk Si etching chemistry with high etch rate (>10 µm/min.) to replace the CMP or polishing and (2) selective Si etching chemistry (Si: SiO 2 ∼ 1800∶1) to replace the Si recess dry etching step. Using this process, Si thickness uniformity can be significantly improved (for 20 µm Si removal), resulting in a lower variation in step height of through-Si via (TSV) protrusion across a 300 mm wafer. The overall cost is significantly lower than CMP plus dry etching. After the integrated wet etching process, passivation layers of low-temperature silicon nitride and oxide were deposited on the backside, followed by CMP to planarize the wafer and expose the Cu nails. The film adhesion is very good without showing any film delamination or peeling. This new integration scheme is robust with a wide process margin and provides cost savings over the conventional BVR flow.

Published

2015

3. New Single Wafer Double Sided Spin Cleaning Method

Author

Hans-Jürgen Dipl.-Ing. Kruwinus, Reinhard Sellmer, Alfred Lechner, Jörg Leberzammer, Walter Starflinger, and Stefan Detterbeck

Subjects

Materials science, business.industry, Optoelectronics, General Materials Science, Nanotechnology, Wafer, Condensed Matter Physics, business, Atomic and Molecular Physics, and Optics, Spin-½

Published

2001

4. Single Wafer Tool Cleaning for Bi-layer Photoresist Rework - Stripper Development and Evaluation

Author

Eugene C. Baryschpolec, Ladislaus Brilz, Andreas Ott, Georg Sulzer, Aiping Wu, Les Molnar, Christin Bartsch, Sally-Ann Henry, and Stefan Detterbeck

Subjects

Materials science, Rework, Mechanical engineering, Wafer, Bi layer, Photoresist, Manufacturing engineering

Abstract

A wet-cleaning solution for bi-layer photoresist rework using single-wafer tool process has been developed and proved to be successful. The chemical design of stripper related to cleaning mechanism was investigated. The cleaning performance of two types of strippers were evaluated and compared between beaker and single-wafer tool process. The results indicated that chemical design of stripper is the key to determine cleaning mechanism for bi-layer photoresist. It is demonstrated that removal of bi-layer photoresist through lift-off is not acceptable in single-wafer tool process; dissolution proved to be the key mechanism for successful removal of bi-layer photoresist in a single wafer tool. For single-wafer tool evaluation, the influence of process parameters such as wafer spin speed, process time, medium temperature and chemical dispense characteristics were evaluated and are discussed.

Published

2007