Title: Forbidden complexes for the 3-sphere

Abstract: A simplicial complex is said to be {\em critical} (or {\em forbidden}) for the 3-sphere $S^3$ if it cannot be embedded in $S^3$ but after removing any one point, it can be embedded.
We show that if a multibranched surface cannot be embedded in $S^3$, it contains a critical complex which is a union of a multibranched surface and a (possibly empty) graph. We exhibit all critical complexes for $S^3$ which are contained in $K_5 \times S^1$ and $K_{3,3} \times S^1$ families. We also classify all critical complexes for $S^3$ which can be decomposed into $G\times S^1$ and $H$, where $G$ and $H$ are graphs.
In spite of the above property, there exist complexes which cannot be embedded in $S^3$, but they do not contain any critical complexes. From the property of those examples, we define an equivalence relation on all simplicial complexes $\mathcal{C}$ and a partially ordered set of complexes $(\mathcal{C}/\mathord\sim; \subseteqq)$, and refine the definition of critical. According to the refined definition of critical, we show that if a complex $X$ cannot be embedded in $S^3$, then there exists $[X']\subseteqq [X]$ such that $[X']$ is critical for $[S^3]$.