H 3.mp4 -

Performance was evaluated using high-test peroxide (HTP, >90% H2O2) as the oxidizer. The ignition process was documented via high-speed videography (referenced in technical documentation as Video H 3.mp4 ) to measure precise ignition delay times. 3. Results and Discussion 3.1 Hypergolic Performance The experimental data revealed that exhibits: Ignition Delay (ID): 16 ms. Specific Impulse (Isp): 254 s. 3.2 Chemical Mechanism

The advancement of aerospace propulsion requires the development of environmentally benign, high-performance solid hypergolic fuels. While hydride-containing compounds offer superior combustion properties, their instability has historically limited their use. This paper explores the synthesis and performance of an atomically precise copper hydride cluster, Cu11H3(5N-dpf)6(OAc)2 (denoted as Cu11H3 ). When combined with high-test peroxide (HTP), the cluster achieves a remarkable ignition delay (ID) of 16 ms and a specific impulse of 254 s. This research highlights the critical role of hydride-proton interactions in accelerating the ignition process. 1. Introduction H 3.mp4

Development of High-Performance Hypergolic Fuels: Synthesis and Characterization of the Cu11H3 Copper Hydride Cluster Results and Discussion 3

The cluster was synthesized through a controlled reaction resulting in an atomically precise structure. This specific architecture provides the stability necessary for handling, addressing the common "inherent instability" of traditional hydride compounds. 2.2 Ignition Testing high-performance solid hypergolic fuels.