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Process Services · Deposition

Thin-Film Coating & Deposition

Full-spectrum thin-film deposition capabilities — from single-layer metals to complex multi-layer optical stacks. PVD, CVD, ALD, and electrochemical deposition on wafers up to 300mm.

PVD · CVD · ALD · ECDDeposition Technologies
1nm–100μmFilm Thickness Range
100mm–300mmWafer Diameters
Metal · Dielectric · PolymerMaterial Classes

Overview

Thin-film deposition is the cornerstone of semiconductor device fabrication — defining the electrical, mechanical, and optical properties of every layer in the device stack. GINECHIP offers a comprehensive portfolio of physical and chemical deposition processes, from DC magnetron sputtering for metallization to plasma-enhanced ALD for ultra-conformal dielectric layers.

Our deposition services span the full material spectrum: metals (Al, Ti, Au, Pt, Cu), dielectrics (SiO₂, Si₃N₄, Al₂O₃, HfO₂), semiconductors (poly-Si, a-Si, GaN), and polymers (polyimide, BCB, parylene). Whether you need a simple single-layer metal contact or a precision 50-layer DBR mirror stack with sub-nanometer thickness tolerance, our process engineering team delivers consistent, documented results.

Deposition Techniques

PVD — Physical Vapor Deposition

Material is vaporized from a solid source in vacuum and condenses onto the wafer surface. Includes sputtering (DC, RF, magnetron, reactive) and thermal/e-beam evaporation. Enables deposition of metals (Al, Ti, Au, Pt, Cr, Ni, Cu), dielectrics (SiO₂, Al₂O₃, TiO₂), and transparent conductive oxides (ITO, AZO).

DC/RF Magnetron SputteringE-beam EvaporationThermal EvaporationReactive SputteringCo-sputtering (alloys)Wafer: 100mm–300mm

CVD — Chemical Vapor Deposition

Gaseous precursors react on the heated wafer surface to form a solid thin film. Offers superior conformality and step coverage compared to PVD. Processes include LPCVD, PECVD, APCVD, and MOCVD for dielectrics, polysilicon, and epitaxial layers.

LPCVD: Si₃N₄, Poly-Si, TEOS-SiO₂PECVD: SiO₂, SiNx, SiON, a-SiMOCVD: III-V epi layersDeposition Temp: 250–900°CStep coverage > 95% (LPCVD)Wafer: 100mm–300mm

ALD — Atomic Layer Deposition

Self-limiting surface reactions produce films one atomic layer at a time. Achieves ultimate conformality on high-aspect-ratio structures (AR > 100:1), sub-nanometer thickness control, and pinhole-free dielectric layers essential for advanced gate dielectrics and passivation.

Al₂O₃, HfO₂, ZrO₂, TiO₂, Ta₂O₅AlN, TiN, Pt, Ru (metals)Thickness: 1nm–200nmUniformity: < 1% (1σ)Thermal & Plasma-Enhanced ALDWafer: 100mm–300mm

Electroplating & Electroless

Electrochemical deposition of thick metal films for wafer-level packaging, TSV filling, Cu pillars, and RDL traces. Electroless plating enables uniform deposition on non-conductive surfaces without external current.

Cu, Ni, Au, Sn, AgCu TSV fill (AR 10:1)Ni/Au UBM stacksElectroless Ni(P)/AuThickness: 0.1μm–100μmWafer: 100mm–300mm

Spin-On Dielectrics &amp; Polymers

Liquid-phase deposition of dielectric and polymer films by spin coating. Includes SOG (Spin-On-Glass), HSQ, photoresist planarization layers, BCB, polyimide, and SU-8 for MEMS structural layers and interlayer dielectrics.

SOG (silicate, siloxane)BCB (Cyclotene™)Polyimide (HD, PS, Photo-definable)SU-8 (MEMS structural)Thickness: 50nm–200μmWafer: 100mm–300mm

Available Film Materials

Metals

Al, AlSi, AlCu, Ti, TiN, TiW, Cr, Ni, Au, Pt, Cu, Ag, W, Mo, Ta

Dielectrics

SiO₂, Si₃N₄, SiON, TEOS, Al₂O₃, HfO₂, ZrO₂, TiO₂, Ta₂O₅, BST, PZT

Semiconductors

a-Si, poly-Si, μc-Si, SiGe, Ge, GaN, AlN, InGaAs, ZnO, IGZO

Polymers

Polyimide, BCB, SU-8, Parylene-C, PMMA, SOG, HSQ, photoresist

TCOs & Conductors

ITO, AZO, FTO, graphene (CVD), CNT films, Ag nanowire networks

Optical Coatings

AR stacks, DBR mirrors, bandpass filters, dichroic mirrors, metallic reflectors

Process Quality Metrics

Quality ParameterTarget SpecificationMeasurement Method
Thickness Uniformity (WIW)< 1% (1σ) for ALD; < 3% for PVD/CVDSpectroscopic Ellipsometry / Profilometry
Thickness Uniformity (WTW)< 2% (1σ)Multi-point Ellipsometry Mapping
Refractive Index (n, k)±0.005 of targetSpectroscopic Ellipsometry (190–1700nm)
Film StressCustom: compressive or tensile (0–2 GPa)Wafer Bow / Tencor FLX
Step Coverage (conformality)> 95% (LPCVD); > 99% (ALD)Cross-Sectional SEM / TEM
AdhesionPasses tape test (ASTM D3359)Cross-hatch / Scribe Test
Particle Density< 10 adds @ 0.2μm (PVD); < 5 adds (ALD)KLA-Tencor Surfscan
ResistivityWithin 5% of bulk value4-Point Probe / Sheet Resistance Mapping

Typical Applications

MEMS Actuators & Sensors

PZT piezoelectric films, AlN for BAW/SAW filters, VO₂ for thermal switches, and structural SiO₂/Si₃N₄ layers for cantilevers and membranes.

CMOS Back-End (BEOL)

Ti/TiN barrier and liner layers, Al and Cu metallization, SiN passivation, and low-k dielectrics for interconnect stacks.

Power Devices

Thick Al metallization (4–10μm) for IGBT and MOSFET top-side contacts. AlN and diamond-like carbon (DLC) for thermal management.

Photonics & Optoelectronics

ITO transparent electrodes, AR coatings (SiO₂/TiO₂ multilayers), DBR mirror stacks, and waveguide cladding layers.

Advanced Packaging

UBM stacks (Ti/Cu, TiW/Cu), RDL Cu traces, micro-bump metallization, and dielectric isolation layers for 2.5D/3D integration.

Bio-MEMS & Microfluidics

Biocompatible coatings (TiO₂, parylene, PEG), hydrophobic/hydrophilic surface treatments, and electrode metallization for biosensors.

Multi-Layer & Gradient Films

Beyond single-layer deposition, we specialize in complex multi-layer stacks and compositionally graded films. Common examples include: DBR mirrors (SiO₂/TiO₂ or SiO₂/Ta₂O₅ alternating layers), AR coatings (2–6 layer broadband), ONO stacks (oxide-nitride-oxide), graded-index layers (rugate filters), and metal-dielectric-metal capacitor stacks. In-situ monitoring with quartz crystal microbalance (QCM) and optical reflectance ensures real-time thickness control during deposition.

Substrate Compatibility

Our deposition systems accommodate a wide range of substrate materials: silicon (all grades, orientations, and diameters), glass (fused silica, borosilicate, quartz), compound semiconductors (GaAs, InP, GaN-on-SiC, SiC), sapphire, SOI, and ceramic substrates (Al₂O₃, AlN). Pre-deposition cleaning protocols (RCA clean, piranha etch, plasma ashing) are tailored to each substrate type to ensure optimal adhesion and film quality.

Quality Assurance

Every deposition lot undergoes comprehensive QC: spectroscopic ellipsometry for thickness and optical constants (n, k), 4-point probe for sheet resistance, profilometry and AFM for surface roughness, wafer bow measurement for film stress, optical microscopy for defect inspection, and cross-sectional SEM/TEM on monitor wafers. Full process documentation and Certificate of Conformance are provided with each shipment.

Ready to Deposit?

Specify your film material, target thickness, substrate type, and wafer quantity — our process engineers will provide a detailed quotation and process timeline within 24 hours.

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ISO 9001:2015 SEMI Standards Inline Metrology Lot Traceability