References

The use of Parr’s Acid Digestion Reactors for Hydrothermal Synthesis has been documented in many scientific journals over the years. Listed below are a selection of those publications which may be useful for users who would like additional information on the hydrothermal synthesis process.

Čejka, J.C van Bekkum, H.; Corma, A.; Schueth, F. Introduction to Zeolite Science and Practice. 3rd ed., 168 of Studies in Surface Science and Catalysis; Elsevier: Amsterdam, 2007.

Goh, G. K. L.; Haile, S. M.; Levi, C. G.; Lange, F. F. Hydrothermal Synthesis of Perovskite and Pyrochlore Powders of Potassium TantalateJournal of Materials Research200217(12), 3168–3176.

Kim, M.; Cho, E.; Park, D.; Jung, H.; Bang, J.; Joo, J. Tuning Photoluminescence of Organic Rubrene Nanoparticles through a Hydrothermal ProcessNanoscale Research Letters20116(1), 405.

Klein, S. M.; Choi, J. H.; Pine, D. J.; Lange, F. F. Synthesis of Rutile Titania Powders: Agglomeration, Dissolution, and Reprecipitation PhenomenaJournal of Materials Research200318(6), 1457–1464.

Ko, H.; Park, S.; An, S.; Lee, C. Enhanced Ethanol Sensing Properties of TeO2/In2O3 Core–Shell Nanorod SensorsCurrent Applied Physics201313(5), 919–924.

Krehula, S.; Musić, S. Hydrothermal Synthesis of Platinum Group Metal NanoparticlesCroatica Chemica Acta2011, 465–468.

Li, S.; Nechache, R.; Alejandro Velasco Davalos, I.; Goupil, G.; Nikolova, L.; Nicklaus, M.; Laverdiere, J.; Ruediger, A.; Rosei, F. Ultrafast Microwave Hydrothermal Synthesis of BiFeO3 NanoplatesJ. Am. Ceram. Soc.201396(10), 3155–3162.

Plessis, P.; Ojumu, T.; Petrik, L. Waste Minimization Protocols for the Process of Synthesizing Zeolites from South African Coal Fly AshMaterials20136(5), 1688–1703.

Shahriari, D. Y.; Barnabe, A.; Mason, T. O.; Peoppelmeier, K. R. A High-Yield Hydrothermal Preparation of CuAlO2Inorganic Chemistry200140(23), 5734–5735.

Zapf, P. J.; Haushalter, R. C.; Zubieta, J. Hydrothermal Synthesis and Structural Characterization of a Series of One-Dimensional Organic/Inorganic Hybrid Materials of the [(MoO3)n(2,2‘-Bipy)m] Family:  [MoO3(2,2‘-Bipy)], [Mo2O6(2,2‘-Bipy)], and [Mo3O9(2,2‘-Bipy)2]Chemistry of Materials19979(9), 2019–2024.