Journal of Propulsion and Energy ISSN:2734-1887(Print) 2765-0049(Online) Free Open Access International Journal on Propulsion and Energy Science and Technology

Kim, K., Sivaprakash, P., Dhas, S.A.M.B. and Kim, I., "A Shock-tube Study of Structural Stability and Morphological Characteristics of Hexagonal-shaped Zinc Oxide Nanomaterials," Journal of Propulsion and Energy, Vol. 4, pp. 58-68, 2024.

Park, S.H., Yang, Y. and Kim, I., "Assessment of re-entry Survivability of Aluminum Oxide with Different Nanostructures Considering Surface Catalytic Heat-transfer," Case Studies in Thermal Engineering, Vol. 55, 104219, 2024.

Cho, S.H. and Kim, I., "Hypersonic Shockwave Robustness in Infrared Plasmonic Doped Metal Oxide Nanocrystal Cubes: Implications for High-speed Ballistics Transport Applications," ACS Applied Nano Materials, Vol. 5, pp. 17487-17495, 2022.

Jayaram, V., Ranjith, R., and Bera, P., "Non-catalytic Behavior of SiO₂ Fine Powders in Presence of Strong Shock Waves for Aerospace Applications," Journal of Materials Sciences and Application, Vol. 4, pp. 37-46, 2018.

Chinke, S. L., Sandhu, I. S., Saroha, D. R., and Alegaonkar, P. S., "Graphene-like Nanoflakes for Shock Absorption Applications," ACS Applied Nano Materials, Vol. 1, pp. 6027-6037, 2018.

Sudhiesh Kumar, C. and Reddy, K.P.J., "Experiments in Hand-operated, Hypersonic Shock Tunnel Facility," Shock Waves, Vol. 26, pp. 845-849, 2016.

Reddy, K.P.J. and Sharath, N., "Formation, Propagation and Reflection of 1D Normal Shocks in Riemann Shock Tube," Current Science, Vol. 104, pp. 172-175, 2013.

Aswathappa, S., Dai, L., Sathiyadhas, S.J.D., Amalapushpam, M.B.D.S., Vijayan, M., Kim, I., Kumar, R.S. and Almansour, A.I., "Acoustic Shock Wave-induced Short-range Ordered Graphitic Domains in Amorphous Carbon Nanoparticles and Correlation between Magnetic Response and Local Atomic Structures," Diamond and Related Materials, Vol. 141, 110587, 2024.

Aswathappa, S., Dai, L., Sathiyadhas, S.J.D., Kumar, R.S. and Reddy, M.V., "Acoustic Shock Wave-induced Rutile to Anatase Phase Transition of TiO₂ Nanoparticles and Exploration of their Unconventional Thermodynamic Structural Transition Path of Crystallization Behaviors," Inorganic Chemistry, Vol. 63, pp. 17043-17055, 2024.

Jayaram, V., Gupta, A. and Reddy, K.P.J., "Investigation of Strong Shock Wave Interactions with CeO₂ Ceramic," Journal of Advanced Ceramics , Vol. 3, pp. 297-305, 2014.

Aswathappa, S., Dhas, S.S.J., Almansour, A.I., Kumar, R.S., Arumugam, N., Perumal, K. and Dhas, S.A.M.B., "Sustainability of the Crystallographic Phase Stability of the Barium Carbonate Nanoparticles at Dynamic Shocked Conditions," Applied Physics A, Vol. 127, 901, 2021.

Aswathappa, S., Eniya, P., Dhas, S.S.J., Dhas, S.J., Sundar, J.K., Inbanathan, S.S.R., Jose, M. and Dhas, S.A.M.B., "Dynamic Shock Wave Induced Order-disorder Type Phase Transition of Sodium Nitrate Single Crystal," Solid State Communications, Vol. 342, 114625, 2022.

Aswathppa, S., Dai, L., Dhas, S.S.J., Dhas, S.A.M.B., Kumar, R.S. and Raj, A.A.N., "Acoustic Shock Wave Induced Chemical Reactions-A Case Study of NaCl Single Crystal," Journal of Molecular Structure, Vol. 1312, No. 1, 138490, 2024.

Kalaiarasi, S., Sivakumar, A., Martin Britto Dhas, S.A. and Jose, M., "Shock Wave Induced Anatase to Rutile TiO2 Phase Transition using Pressure Driven Shock Tube," Materials Letters, Vol. 219, pp. 72-75, 2018.

Jayaram, V. and Reddy, K.P.J., "Experimental Study of the Effect of Strong Shock Heated Test Gases with Cubic Zirconia," Advanced Materials Letters, Vol. 7, No. 11, pp. 100-150, 2016.

Sivakumar, A., Soundarya, S., Sahaya Jude Dhas, S., Kamala Bharathi, K. and Martin Britto Dhas, S.A., "Shock Wave Driven Solid State Phase Transformation of Co₃O₄ to CoO Nanoparticles," The Journal of Physical Chemistry C, Vol. 124, No. 19, pp. 10755- 10763, 2020.

Rita, A., Sivakumar, A., Sahaya Jude Dhas, S. and Martin Britto Dhas, S.A., "Structural, Optical and Magnetic Properties of Silver Oxide (AgO) Nanoparticles at Shocked Conditions," Journal of Nanostructure in Chemistry, Vol. 10, pp. 309-316, 2020.

Devika, M., Koteeswara Reddy, N., Jayaram, V. and Reddy, K.P.J., "Sustainability of Aligned ZnO Nanorods Under Dynamic Shock Waves," Advanced Materials Letters, Vol. 8, pp. 398-403, 2017.

Rita, A., Sivakumar, A. and Martin Britto Dhas, S.A., "Investigation of Structural and Magnetic Phase Behaviour of Nickel Oxide Nanoparticles Under Shock Wave Recovery Experiment," Journal of Superconductivity and Novel Magnetism, Vol. 33, pp. 1845-1849, 2020.

Vasu, K., Matte, H.S.S.R., Shirodkar, S.N., Jayaram, V., Reddy, K.P.J., Waghmare, U.V. and Rao, C.N.R., "Effect of High-temperature Shock-wave Compression on Few-layer MoS₂, WS₂ and MoSe₂," Chemical Physics Letters, Vol. 582, pp. 105-109, 2013.

Ali, E., "Tungsten Dichalcogenides (WS₂, WSe₂, and WTe₂): Materials Chemistry and Applications," Journal of Materials Chemistry A, Vol. 5, No. 35, pp. 18299-18325, 2017.

Moradpur-Tari, E., Sarraf-Mamoory, R. and Yourdkhani, A., "Structural, Electronic, and Electrochemical Studies of WS2 Phases using Density Functional Theory and Machine Learning," Physica B: Condensed Matter, Vol. 650, 414568, 2023.

Vakili-Nezhaad, G.R., Gujarathi, A.M., Al Rawahi, N. and Mohammadi, M., "Performance of WS₂ Monolayers as a New Family of Anode Materials for Metal-ion (mg, Al and ca) Batteries," Materials Chemistry and Physics, Vol. 230, pp. 114-121, 2019.

Tsirlina, T., Feldman, Y., Homyonfer, M., Sloan, J., Hutchison, J.L. and Tenne, R., "Synthesis and Characterization of Inorganic Fullerene-like WSe₂ Material," Fullerene Science and Technology, Vol. 6, pp. 157-165, 1998.

Zhu, Y.Q., Sekine, T., Brigatti, K.S., Firth, S., Tenne, R., Rosentsveig, R., Kroto, H.W. and David, R.M.W., "Shock-Wave Resistance of WS₂ Nanotubes," Journal of the American Chemical Society, Vol. 125, No. 13, pp. 1329-1333, 2003.

Qiu, J., Dai, X., Song, J., Pu, K., Wu, X., An, J. and Zhao, T., "High Photocatalytic Performance of g-C3N4/WS2 Heterojunction from First Principles," Chemical Physics, Vol. 545, 111141, 2021.

Lu, Y., Zhuang, Z., Li, L., Chen, F., Wei, P. and Yu, Y., "Advancements and Challenges in g-C3N4/ZnIn2S4 Heterojunction Photocatalysts," Journal of Materials Chemistry A, Vol. 13, No. 7, pp. 4718-4745, 2025.

Hu, S., Zhang, W., Bai, J., Lu, G., Zhang, L. and Wu, G., "Construction of a 2D/2D g-C3N4/rGO Hybrid Heterojunction Catalyst with Outstanding Charge Separation Ability and Nitrogen Photofixation Performance via a Surface Protonation Process," RSC Advances, Vol. 6, No. 31, pp. 25695-25702, 2016.

Nawaz, A., Goudarzi, S., Saravanan, p. and Zarrin, H., "Z-scheme Induced g-C3N4 /WS2 Heterojunction Photocatalyst with Improved Electron Mobility for Enhanced Solar Photocatalysis," Solar Energy, Vol. 228, pp. 53-67, 2021.

Xu, H., Sun, L., Li, W., Gao, M., Zhou, Q., Li, P., Yang, S. and Lin, J., "Facile Synthesis of Hierarchical g-C₃N₄@WS₂ Composite as Lithium-ion Battery Anode," Chemical Engineering Journal, Vol. 435, 135129, 2022.

Tran Huu, H., Thi, M.D.N., Nguyen, V.P., Thi, L.N., Phan, T.T.T., Hoang, Q.D., Luc, H.H., Kim, S.J. and Vo, V., "One-pot Synthesis of S-scheme MoS₂/g-C₃N₄ Heterojunction as Effective Visible Light Photocatalyst," Scientific Reports, Vol. 11, 14787, 2021.