How can we understand crystal structure besides employing X-ray diffraction analysis? Low-frequency (LF) Raman spectra provide a wealth of precious information on crystal structure and orientation and can potentially be a complementary approach to the conventional X-ray diffraction method. However, observation of LF Raman spectra is very challenging due to severe interference of gigantic Rayleigh scattering. In this study, the author uses a laboratory-built LF Raman spectrometer that has the ability to observe Raman signals down to 9.8 cm-1. Because this apparatus is combined with a confocal microscope, it has become feasible to perform space-resolved measurements of crystals under the microscope for in-situ crystal structure analysis. Here, the author demonstrates this novel approach by studying crystal polymorphs of 1,1′-binaphthyl. This biaryl compound occurs as two crystal polymorphs with different dihedral angles between the two naphthyl groups: namely, the cisoid (C) and transoid (T) forms. As the C form is heated up, it gradually transforms to the T form via sublimation and subsequent recrystallization. In this thesis, the author presents tracing of this transformation dynamics and LF Raman imaging that visualizes the spatial distribution of the C and T forms after the transformation takes place. The only effective way to distinguish between the C and T forms by high-frequency Raman bands would be to calculate the intensity ratio for a pair of marker bands (510/532 cm-1). However, the two forms show much more distinct spectral patterns in the LF region. For example, the C form shows the strongest band at 100 cm-1, whereas the T form shows the most intense band at 26 cm-1. Thus, these two LF bands were chosen as markers to selectively probe different crystal polymorphs that coexist in proximity. In sharp contrast with the intensity-ratio image, the LF Raman images at 100 and 26 cm-1 show markedly high contrast and clearly discriminate one crystal form from the other. Moreover, we observed inhomogeneous distribution patterns in the LF Raman images, suggesting different crystal orientations within an apparent single crystal. Our results show that LF Raman spectroscopy and imaging should be a facile yet powerful addition to the toolbox for crystal structure analysis.