Chemistry & Biodiversity
Discovery of a Pimaradiene that Decreases Viability of MDA‐MB‐468 Cells Through Inhibition of EGFR Signaling Pathway
Chemistry &Biodiversity, Volume 21, Issue 4, April 2024.
Chemistry & Biodiversity
Variability of Isoquinoline Alkaloid Profiles and Anticholinesterase Activities with Binding‐Mode Predictions of Glaucium flavum Population
Chemistry &Biodiversity, Volume 21, Issue 4, April 2024.
Chemistry & Biodiversity
Inhibitory Effects of Endemic Thyme’s Thymol‐Carvacrol Chemotype Essential Oil on Aspergillus Species with Free Radical Scavenging Properties
Chemistry &Biodiversity, Volume 21, Issue 5, May 2024.
ChemPhysChem
Evaluation of the effect of polyethylenimine on boron adsorption by soil minerals
ChemPhysChem, EarlyView.
ChemBioChem
The Biocatalytic Potential of Aromatic Ammonia–Lyase from Loktanella atrilutea
ChemBioChem, EarlyView.
Chemistry & Biodiversity
Anti‐inflammatory, Antioxidative, and Moisturizing Effects of Oxyceros horridus Lour. Ethanol Extract in Human Keratinocytes via the p38 Signaling Pathway
Chemistry &Biodiversity, Volume 21, Issue 4, April 2024.
Biocompatible Phosphorescent Ir(III) Complexes for Hypoxia Sensing in PLIM Mode
European Journal of Inorganic Chemistry, Volume 27, Issue 15, May 22, 2024.
Synlett
Modification of an N-Methyl Group toward a New Energetic Melt-Castable Material with a Good Energy-Stability Balance
The energy and stability properties of energetic materials are often contradictory to each other (e.g., high energy vs low thermal stability). There is no doubt that it is still challenging to explore the effective balance between energetic performance and molecular stability, especially for melt-castable materials. In this study, we selected the 4-methoxy-3,5-dinitropyrazole framework and a stable nitro group to design a new energetic melt-castable compound, namely 4-methoxy-3,5-dinitro-1-(nitromethyl)-1H-pyrazole (MDNNMP). Compared with the N-methylation product DMDNP and the nitrato-substituted derivative MC-7, MDNNMP exhibits a better balanced performance, including good thermal stability (Td
: 203.7 °C), detonation velocity (Dv
: 8099 m s–1) and impact sensitivity (20 J). The favorable balanced performance of MDNNMP suggests that it is a suitable candidate as a high-performance melt-castable material. Additionally, compared with the nitratomethyl group, the nitromethyl group demonstrates superior advantages in performance regulation.