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Two Dimensional Collection

"Exploring the Boundaries of Dimensionality: From Graphene Sheets to Artwork and Cancer Scans" In a world where dimensions intertwine

Background imageTwo Dimensional Collection: Graphene sheet, artwork C016 / 8274

Graphene sheet, artwork C016 / 8274
Graphene sheet. Computer artwork showing the molecular structure of a graphene sheet

Background imageTwo Dimensional Collection: Christmas tree with gifts. One line drawing. Minimal art

Christmas tree with gifts. One line drawing. Minimal art

Background imageTwo Dimensional Collection: Figure of the God Rama

Figure of the God Rama
DND97602 Figure of the God Rama by Indian School; Mumbai, India; Dinodia

Background imageTwo Dimensional Collection: Apparatus for translating three-dimensional objects into two-dimensional drawings

Apparatus for translating three-dimensional objects into two-dimensional drawings, 1525, (1936)

Background imageTwo Dimensional Collection: Colon cancer, CT scans

Colon cancer, CT scans
Colon cancer. 2D computed tomography (CT) rendering (left) and 3D colonoscopy image (right) showing the location of a cancerous growth in the colon of a 59-year-old patient

Background imageTwo Dimensional Collection: Graphene, molecular structure C016 / 8518

Graphene, molecular structure C016 / 8518
Graphene. Computer model of the molecular structure of graphene, a single layer of graphite. It is composed of hexagonally arranged carbon atoms (black) linked by strong covalent bonds (pink)

Background imageTwo Dimensional Collection: Graphene, molecular structure C016 / 8517

Graphene, molecular structure C016 / 8517
Graphene. Computer model of the molecular structure of graphene, a single layer of graphite. It is composed of hexagonally arranged carbon atoms (black) linked by strong covalent bonds (grey)

Background imageTwo Dimensional Collection: Graphene, molecular structure C016 / 8515

Graphene, molecular structure C016 / 8515
Graphene. Computer model of the molecular structure of graphene, a single layer of graphite. It is composed of hexagonally arranged carbon atoms (spheres) linked by strong covalent bonds

Background imageTwo Dimensional Collection: Graphene, molecular structure C016 / 8513

Graphene, molecular structure C016 / 8513
Graphene. Computer model of the molecular structure of graphene, a single layer of graphite. It is composed of hexagonally arranged carbon atoms (spheres) linked by strong covalent bonds (rods)

Background imageTwo Dimensional Collection: Graphene, molecular structure C016 / 8509

Graphene, molecular structure C016 / 8509
Graphene. Computer model of the molecular structure of graphene, a single layer of graphite. It is composed of hexagonally arranged carbon atoms (spheres) linked by strong covalent bonds

Background imageTwo Dimensional Collection: Graphene conductivity, conceptual image

Graphene conductivity, conceptual image. Computer artwork of a graphene sheet with electricity (yellow) passing through it. Graphene is a single layer of graphite

Background imageTwo Dimensional Collection: Graphene conductivity, conceptual image C013 / 8897

Graphene conductivity, conceptual image C013 / 8897
Graphene conductivity, conceptual image. Computer artwork of a graphene sheet with electricity (yellow) passing through it. Graphene is a single layer of graphite

Background imageTwo Dimensional Collection: Proteomics research

Proteomics research. Computer illustration of the spots of protein produced on a 2-D gel in proteomics research. This is the study of the structure and function of all the proteins in an organism

Background imageTwo Dimensional Collection: Graphene, molecular structure

Graphene, molecular structure

Background imageTwo Dimensional Collection: Uniform tiling pattern

Uniform tiling pattern. This tiling pattern is called truncated hexagonal tiling and has one triangle and two dodecagons (12 sides) on each vertex (corner)

Background imageTwo Dimensional Collection: Graphene sheets, artwork

Graphene sheets, artwork
Graphene sheets, computer artwork. Graphene a single layer of graphite. It is composed of hexagonally arranged carbon atoms (spheres) linked by strong covalent bonds (rods)


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"Exploring the Boundaries of Dimensionality: From Graphene Sheets to Artwork and Cancer Scans" In a world where dimensions intertwine, the marvels of two-dimensionality unfold. A graphene sheet, like artwork C016 / 8274, captivates with its intricate molecular structure, paving the way for endless possibilities. Just as Albrecht Durer's apparatus translated three-dimensional objects into two-dimensional drawings in 1525, we continue to push boundaries. Even in medical realms, dimensionality takes center stage. Colon cancer is unraveled through CT scans that strip away complexity and present a clear picture of this disease's presence. The molecular structures of graphene (C016 / 8518) further exemplify how even at an atomic level, two-dimensionality can shape our understanding. As we delve deeper into the realm of graphene (C016 / 8517), each molecular structure (C016 / 8515) reveals new insights and potential applications. Its conductivity becomes more than just a concept; it transforms into a tangible force driving innovation (conceptual image C013 / 8897). Beyond scientific endeavors lies proteomics research – an exploration that transcends dimensions itself. It uncovers hidden secrets within our biological makeup and propels us towards breakthroughs that were once unimaginable. In this ever-evolving landscape where dimensions converge and diverge, we find ourselves on the cusp of discovery. Two-dimensionality offers us glimpses into unseen worlds – from artistic expressions to medical advancements – reminding us that there is always more than meets the eye.

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