Malik, H., Devi, S., Gupta, D., Gaur, A. K., Venkataramani, S., & Gopakumar, T. G. (2025). Highly distinguishable isomeric states of a tripodal arylazopyrazole derivative on graphite through electron/hole-induced switching at ambient conditions. Beilstein-Institut.
Chicago Style (17th ed.) CitationMalik, Himani, Sudha Devi, Debapriya Gupta, Ankit Kumar Gaur, Sugumar Venkataramani, and Thiruvancheril G. Gopakumar. Highly Distinguishable Isomeric States of a Tripodal Arylazopyrazole Derivative on Graphite Through Electron/hole-induced Switching at Ambient Conditions. Beilstein-Institut, 2025.
MLA (9th ed.) CitationMalik, Himani, et al. Highly Distinguishable Isomeric States of a Tripodal Arylazopyrazole Derivative on Graphite Through Electron/hole-induced Switching at Ambient Conditions. Beilstein-Institut, 2025.