T
Trilok Singh
Researcher at Indian Institute of Technology Bombay
Publications - 396
Citations - 13468
Trilok Singh is an academic researcher from Indian Institute of Technology Bombay. The author has contributed to research in topics: Slope stability & Rock mass classification. The author has an hindex of 54, co-authored 373 publications receiving 10286 citations. Previous affiliations of Trilok Singh include Indian Institute of Technology Delhi & University of Cologne.
Papers
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Stabilizing the Efficiency Beyond 20% with a Mixed Cation Perovskite Solar Cell Fabricated in Ambient Air under Controlled Humidity
Trilok Singh,Tsutomu Miyasaka +1 more
TL;DR: In this article, a method to reproduce stable and high power conversion efficiency (PCE) of a triple cation perovskite prepared using a one-step solution deposition and low-temperature annealing fully conducted in controlled ambient humidity conditions was explored.
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Estimation of elastic constant of rocks using an ANFIS approach
TL;DR: The neuro fuzzy system is applied to predict the rock Young's modulus to overcome the limitation of ANN and fuzzy logic and endow with high performance of predictive neuro-fuzzy system to make use for prediction of complex rock parameter.
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Prediction of blast-induced ground vibration using artificial neural network
Manoj Khandelwal,Trilok Singh +1 more
TL;DR: In this article, an attempt has been made to evaluate and predict the blast-induced ground vibration and frequency by incorporating rock properties, blast design and explosive parameters using the artificial neural network (ANN) technique.
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A correlation between P-wave velocity, impact strength index, slake durability index and uniaxial compressive strength
Pankaj Sharma,Trilok Singh +1 more
TL;DR: In this article, the mechanical properties of one igneous, three sedimentary and three metamorphic rock types were determined in the laboratory and correlated with P-wave velocity, which may avoid the necessity for time-consuming and tedious laboratory testing.
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Effect of Electron Transporting Layer on Bismuth-Based Lead-Free Perovskite (CH3NH3)3 Bi2I9 for Photovoltaic Applications
TL;DR: The optical measurements showed a strong absorption band around 500 nm, and the devices made on anatase TiO2 mesoporous layer showed good performance with current density over 0.8 mA cm(-2), while the devices on brookiteTiO2 layer and planar (free of porous layer) was inefficient.