The species of the genus Thelcticopis Karsch, 1884 from India, Myanmar, Pakistan, and Sri Lanka are reviewed. Stasina nalandica Karsch, 1892 and S. paripes (Karsch, 1879) are re-transferred to the genus Thelcticopis. Thelcticopis ajax Pocock, 1901, T. bicornuta Pocock, 1901, T. birmanica Thorell, 1895 stat. rev., T. hercules Pocock, 1901, T. moolampilliensis Sunil Jose & Sebastian, 2007, T. nalandica (Karsch, 1892) comb. rest., T. paripes (Karsch, 1879) comb. rest., T. picta (Thorell, 1887), T. rufula Pocock, 1901, T. serambiformis Strand, 1907, and T. virescens Pocock, 1901 are diagnosed, redescribed, and/or illustrated based on type and/or freshly collected material, and their current distributional records are mapped. The female of T. virescens is described for the first time. The type locality of Thelcticopis goramensis (Thorell, 1881) is situated in Indonesia, Maluku, not in Malaysia. Thelcticopis bifasciata (Thorell, 1891), and T. fasciata (Thorell, 1897) are proposed as nomina dubia as the holotypes are immature and their identity cannot be fully elucidated. Thelcticopis ancorum Dyal, 1935 and T. telonotata Dyal, 1935 from Lahore, Punjab are considered species incertae sedis, and the subfamily Sparianthinae is most likely not distributed in Pakistan.
The predominant orientation of LiMn2O4 synthesized through the different methods is attributed, using the crystal shape algorithm (a new tool advanced to study the crystal shapes of crystalline materials), to the (331) plane. Existing literature evidence however shows that the (400) plane is the thermodynamically most stable hkl direction of LiMn2O4. Observations from the crystal shape algorithm and literature evidence of the thermodynamic stabilities of the hkl planes of LiMn2O4 point to the operation of a kinetically controlled mechanism governing the LiMn2O4 synthesis reactions currently available in the literature. This finding can have important consequences on the electrochemical characteristics of the material such as its rate capability.