A triazole-derivatized, spiro-indoline-linked, 1,3-di-derivative of calix[4]arene () has been synthesized to take advantage of its ion-binding capability in the ring-open form. Indeed, the spiro-indoline moiety is well known for its photochromic, acidochromic, and metallochromic properties. Therefore, the has been explored for Cu binding, cell imaging, and anticancer activity of the corresponding complex since Cu complexes are known for such activity. The conversion from the closed to open form of is expedited by light or proton, while the metal ion can open as well as stabilize it. The open form of showed binding of Cu ratiometrically as demonstrated by absorption and fluorescence spectroscopy. This leads to the formation of 1:1 complex with a binding constant of (6.9 ± 2.3) × 10 M, with the lowest detection limit being 1.9 nM. In the complex, the Cu is bound by two triazole-N and two phenolic-O groups resulting in a distorted tetrahedral coordination core of CuNO as demonstrated based on density functional theory studies. To form such coordination core, the arms underwent considerable changes in some of the dihedral angles. The binding of Cu to induces self-assembly of by varying from simple particles to rodlike structures when bound to Cu. The on-off fluorescence intensity of and its Cu-bound species are responsible for imaging cancer cells. The shows red fluorescence in MDA-MB-231 cancer cells by targeting mitochondria as proved based on the colocalization study carried out using MitoTracker Green. While the alone is nontoxic to cancer cells, the presence of Cu brings cell death to an extent of 90% with an IC value of 165 nM by bringing a substantial quench in the fluorescence of . A shift of population from G/G and GM phases to the Sub-G phase was observed as the concentration of the complex was increased, indicating cell death as studied by fluorescence-activated cell sorting. Thus, the present work clearly proved that a calix[4]arene functionalized at the lower rim with spiro-indoline moieities when complexed with Cu acts as an efficient anticancer agent and is capable of imaging cancer cells.