Daniel Hader Source Confirmed

Affiliation confirmed via AI analysis of OpenAlex, ORCID, and web sources.

Researcher

University of Arkansas at Fayetteville

faculty

3 h-index 24 pubs 26 cited

Research Areas

Self-Assembly Computational Materials Science Theoretical Computer Science Fractal Geometry Biomimetic Materials and Systems

Links

Research Group

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OverviewAI-generated summary

Daniel Hader's research program focuses on the abstract Tile Assembly Model (TAM), a theoretical framework for studying self-assembly. His work investigates the fundamental principles and limitations governing how systems can replicate shapes and structures through the sequential addition of components. Publications explore concepts such as geometric hindrance, universal shape replication, and the influence of dimensionality, diffusion, and directedness on simulation outcomes within the TAM. Hader also examines fractal dimensions in assemblies and the implications of signal-passing tiles for complex self-assembly processes.

His collaborations within the University of Arkansas at Fayetteville include extensive work with Matthew J. Patitz, Andrew Alseth, and Phillip Drake. Hader has published 24 papers with a total of 26 citations, and maintains an h-index of 3. His scholarship indicates recent activity, with publications spanning from 2021 to 2025, and a recent publication in 2026.

Metrics

  • h-index: 3
  • Publications: 24
  • Citations: 26

Selected Publications

  • Simulation of the abstract Tile Assembly Model using crisscross slats (extended version) (2026) DOI
  • Simulation of the Abstract Tile Assembly Model Using Crisscross Slats (2024) DOI
  • Universal shape replication via self-assembly with signal-passing tiles (2024) DOI
  • Self-replication via tile self-assembly (2024) DOI
  • The Impacts of Dimensionality, Diffusion, and Directedness on Intrinsic Cross-Model Simulation in Tile-Based Self-Assembly (2024) DOI
  • The Impacts of Dimensionality, Diffusion, and Directedness on Intrinsic Cross-Model Simulation in Tile-Based Self-Assembly (2023) DOI
  • The Impacts of Dimensionality, Diffusion, and Directedness on Intrinsic Cross-Model Simulation in Tile-Based Self-Assembly (2023) DOI
  • Fractal dimension of assemblies in the abstract tile assembly model (2023) DOI
  • Universal Shape Replication Via Self-Assembly With Signal-Passing Tiles (2023) DOI
  • Universal Shape Replication Via Self-Assembly With Signal-Passing Tiles (2022) DOI
  • Fractal Dimension of Assemblies in the Abstract Tile Assembly Model (2021) DOI
  • Self-Replication via Tile Self-Assembly (2021) DOI
  • Self-Replication via Tile Self-Assembly (Extended Abstract) (2021) DOI
  • Geometric tiles and powers and limitations of geometric hindrance in self-assembly (2021) DOI

Collaborators

Researchers in the database who share publications

Matthew J. Patitz University of Arkansas at Fayetteville 17 shared publications Andrew Alseth University of Arkansas at Fayetteville 7 shared publications Phillip Drake University of Arkansas at Fayetteville 2 shared publications