The Journal of Chemical Physics (@jchemphys) 's Twitter Profile
The Journal of Chemical Physics

@jchemphys

The MOST CITED journal in chemical physics publishing cutting edge research in all areas of modern #chemicalphysics and #physicalchemistry at @AIP_Publishing

ID: 1501614402537238532

linkhttps://pubs.aip.org/aip/jcp calendar_today09-03-2022 17:43:52

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The Journal of Chemical Physics (@jchemphys) 's Twitter Profile Photo

Simulating many-body open quantum systems (OQSs), which show up in physics, biology, chemistry, and materials science, is immensely challenging due to complex spatial and temporal quantum correlations. #scilight Learn more 👇 aippub.org/4iVfEsn

The Journal of Chemical Physics (@jchemphys) 's Twitter Profile Photo

Simulating many-body open quantum systems (OQSs), which show up in physics, biology, chemistry, and materials science, is immensely challenging due to complex spatial and temporal quantum correlations. #scilight Learn more 👇 aippub.org/4iVfEsn

The Journal of Chemical Physics (@jchemphys) 's Twitter Profile Photo

MOLPIPx: A modern library integrating PIP models into ML frameworks like JAX/Rust-Enzyme for auto-diff, bridging traditional PES methods with cutting-edge ML techniques. @rovargashdz Asma_J rustacean McMaster Chemistry & Chemical Biology aippub.org/3GbEm9F

The Journal of Chemical Physics (@jchemphys) 's Twitter Profile Photo

📢 Call For Papers This Special Topic of The Journal of Chemical Physics invites contributions from both theoretical and experimental perspectives, with the goal of bringing us closer to mastering the design of systems that can self-assemble with precision and predictability.

The Journal of Chemical Physics (@jchemphys) 's Twitter Profile Photo

Semiconductors with quantum dots are a rising star in the world of photonic technologies. #scilight Learn more 👇 aippub.org/4czk4mJ

The Journal of Chemical Physics (@jchemphys) 's Twitter Profile Photo

This Special Topic focuses on the advances and remaining challenges in developing in situ and operando experimental approaches that can provide fundamental insights into and accelerate the development of novel and improved functional materials. Learn more 👇

The Journal of Chemical Physics (@jchemphys) 's Twitter Profile Photo

Positively charged protein residues, called histones, bind like spools around DNA into tightly packed fibers known as chromatin. #scilight Learn more 👇 aippub.org/4ikJEgK

The Journal of Chemical Physics (@jchemphys) 's Twitter Profile Photo

Recent advances in materials and chemistry have improved control over light-matter interaction at the nano and molecular level, and newly developed spectroscopic tools reveal interaction mechanisms with unprecedentedly high temporal and spatial precision. Learn more 👇

The Journal of Chemical Physics (@jchemphys) 's Twitter Profile Photo

Though widespread in use within the physical sciences, classical molecular dynamics simulations — which predict the motions of molecules in a system — are not able to capture the nuclear quantum effects inherent to the heat capacity of water. #scilight Learn more 👇

The Journal of Chemical Physics (@jchemphys) 's Twitter Profile Photo

A multiscale model is developed to incorporate methylation into our nucleosome resolution model to investigate chromatin structure and gene regulation. @Schlicklab aippub.org/3EbSH5C

The Journal of Chemical Physics (@jchemphys) 's Twitter Profile Photo

Capturing and sequestering carbon dioxide (CO2), a harmful greenhouse gas, is a costly and inefficient process. #scilight Learn more 👇 aippub.org/4cvXTxE

The Journal of Chemical Physics (@jchemphys) 's Twitter Profile Photo

Screening of multiple dyes and 115 quenchers achieved more than 200-fold NMR signal enhancement using photo-CIDNP, revealing the importance of molecular diffusion. @Utokyo_News_en aippub.org/4jlX6BB

The Journal of Chemical Physics (@jchemphys) 's Twitter Profile Photo

📢 Call For Papers Recent advances in linear, non-linear and near-field THz spectroscopy across disciplines, and rapid imaging now enable novel applications. Submit by September 30, 2025! Learn more 👇 aippub.org/44JmXzq

The Journal of Chemical Physics (@jchemphys) 's Twitter Profile Photo

Recent advances in materials and chemistry have improved control over light-matter interaction at the nano and molecular level, and newly-developed spectroscopic tools reveal interaction mechanisms with unprecedentedly high temporal and spatial precision. Learn more 👇

The Journal of Chemical Physics (@jchemphys) 's Twitter Profile Photo

Recent developments in experimental, numerical, and theoretical approaches provide increasingly detailed information on the origins of friction and adhesion with unprecedented temporal and spatial resolution. Learn more 👇 aippub.org/3ShF7Ro

The Journal of Chemical Physics (@jchemphys) 's Twitter Profile Photo

We measured how far excitons can travel in the Photosystem II supercomplex of plants by non-linear spectroscopy and kinetic Monte Carlo simulation. The motion is sub-diffusive over 9-10 nm. Berkeley Lab Learn more 👇 aippub.org/4jxilRy

The Journal of Chemical Physics (@jchemphys) 's Twitter Profile Photo

Two-dimensional (2D) spectroscopy has applications across all the sciences — from a better understanding of photosynthesis in plants to analyzing how electrons move in superconductors. #scilight Learn more 👇 aippub.org/4kvvaMo