Initiative promoting knowledge & latest developments in the field of #highpressure research, esp. of #MOFs, #perovskites & other materials. Spread the word!
Study of high-pressure behavior of astrochemical model ices is devoted to address open questions about methane clathrate hydrate & unusual methane solubility in water. #diamondanvilcell#astrochemistry#icemixtures@hp_lens @DemetrioScelta @borlongioffei
https://t.co/eO3qPeJdEG
In the quest for superhard materials, besides traditional cubic, wurtzite-BCXN compounds are good candidates. @prashantvg03#CCMPlabCBNU#JPhysChem
https://t.co/9mzOJNWN6a
No project can work without chemists providing state-of-art materials. That’s why we are looking for a motivated post-doc and PhD student in Chemistry to join our team ! Are nano-materials your mantra, then please consider applying for these positions ! @NanoUGent@ERC_Research
#phasetransitions under high pressure - we like it!
Investigating the Structural Symmetrization of CsI3 at High Pressures through Combined X-ray Diffraction Experiments and Theoretical Analysis https://t.co/DT2Z4vVAx2 in @InorgChem (2022) by @tomaszporeba90 @RacioppiStefano
Next to highlight is...
Confirmation of Phase Transitions and Laser-Assisted Chemical Reaction for Pyridine under High Pressure
#phasetransition#pyridine#highpressure
https://t.co/IQIBS6vKvh in J. Phys Chem. C (2022) @JPhysChem
Highlighting high-pressure research from #japan#thinfilm#optoelectronics#devices
Pressure-Induced Transition from Wurtzite and Epitaxial Stabilization for Thin Films of Rocksalt MgSnN2 https://t.co/CKHCcmUacu in @ChemMater (2023)
Pressure-driven phase transitions in 2D perovskite - that is what we like.
#perovskites#openaccess
Pressure-Driven Phase Transition in Two-Dimensional Perovskite MHy2PbBr4. In @ChemMater (2022)
https://t.co/SVUljZORE1
Highlighting discovery of high-pressure phase transtions using pressure-dependent #Raman#spectroscopy in a #perovskite
Luminescence and Dielectric Switchable Properties of a 1D (1,1,1-Trimethylhydrazinium)PbI3 Hybrid Perovskitoid in @InorgChem (2023)
https://t.co/QsjPmzjsHX
Today... #radicals and their high-pressure #Raman#spectroscopy studies
The Effect of High Pressure on Polymorphs of a Derivative of Blatter’s Radical: Identification of the Structural Signatures of Subtle Phase Transitions https://t.co/6Ep8mAIa0j in CG&D (2023) @CGD_ACS
@ScienceNews The researchers used a diamond anvil cell to apply high pressure of about 2.6 million times the atmospheric pressure and squeezed the compound, causing it to exhibit superconducting behaviour at room temperature. The exact mechanism behind this phenomenon is still being studied.
Giant anomalous #compressibility of the plane-square nickel(II) bis(N,N-diethyldithiocarbamate) complex by @szymon_sobczak#diamondanvilcell
Exchanged Metal‐Hydrogen Anagostic Bonds and Resonance of Dithiocarbamate and Thioureide Mesomers https://t.co/4D1NlvLQe7 in @ChemEurJ
Famous #photocatalysts under pressure: #Cobalt#pyrovanadate is found to be structurally stable up to at least 6 GPa
Physical Properties and Structural Stability of Cobalt Pyrovanadate Co2V2O7 under High-Pressure Conditions https://t.co/h4UAXkfidd in JPCC (2022) @JPhysChem
Pressure-induced phase transitions of GdF3, TbF3, YbF3, and LuF3 studied by #photoluminescence measurements in the #diamond#anvil#cell
Orthorhombic-to-Hexagonal Phase Transition of REF3 (RE = Sm to Lu and Y) under High Pressure https://t.co/VzstBa46Cw in @InorgChem (2022)
Highlighting also today #spincrossover of #iron (II) complex under pressure in @InorgChem by @DamianPaliwoda et al. from @LCC_CNRS
Pressure Tuning of Coupled Structural and Spin State Transitions in the Molecular Complex [Fe(H2B(pz)2)2(phen)] https://t.co/3doyXh8IPB