The Block Copolymer Revolution

Mastering Nanostructure Self-Assembly for Next-Generation Semiconductor Manufacturing

The limits of traditional lithography have been reached—now, the molecules must build themselves.

Strategic Objectives

• Master the principles of directed self-assembly to surpass optical limits.

• Understand the thermodynamics of phase separation for precision patterning.

• Bridge the gap between chemical bottom-up synthesis and top-down lithography.

• Implement scalable nanomanufacturing techniques for 2nm nodes and beyond.

The Core Challenge

As semiconductor features shrink toward the atomic scale, conventional top-down manufacturing faces physical and economic barriers that threaten the future of Moore's Law.

The Dawn of Hybrid Lithography

Polymer Physics Foundations

The Mechanics of Block Copolymers

Thermodynamics of Phase Separation

The Flory-Huggins Theory

Microphase Separation Transitions

Self-Assembly Dynamics

Directed Self-Assembly (DSA)

Graphoepitaxy Techniques

Chemical Epitaxy

Annealing and Kinetics

Solvent Vapor Treatment

Plasma Etching for Pattern Transfer

Metrology at the Nanoscale

Defectivity and Yield

Advanced Pattern Multiplication

Materials for 2nm Nodes

Interfacial Engineering

Computational Lithography

Industrial Integration

The Future of Nano-Manufacturing

Explore Research Ecosystem

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