The goal of The Journal of Chemical Physics is always to bridge a gap among journals of chemistry and journals of physics through publishing quantitative research depending on physical techniques and principles, as utilized to chemical systems.
Just like the fields of physics and chemistry have expanded, so have chemical physics topic areas, which contain materials, polymers, biological macromolecules and surfaces/interfaces, along with the traditional small molecule and condensed phase systems. The journal of chemical physics impact factor is released four times for every month (48 problems per year) from the American Institute of Physics.
Journal of chemical physics letters impact factor is the world's only Letter's journal in the area of chemical physics. It is devoted to the study of phenomena within the domain of chemical physics, with a focus on theoretical interpretation. Trial and error contributions are included if their outcomes are of direct significance for a theoretical analysis.
Letters are intended as short reports of significant, original and regular research outcomes which warrant quick publication. In considering the suitability of a manuscript with regard to publication, the editors pay particular interest to the originality of the study, the desirability of fast publication and the validity of the conclusions. Every contributions are refereed.
The Advances in Chemical Physics gives the chemical physics field with a forum for critical, authoritative evaluations of advances in most area of the discipline. This newest volume explores the advent of optical individual molecule spectroscopy and the way atomic force microscopy has empowered novel experiments on single biomolecules, opening new frontiers in cell biology and molecular and leading to fresh theoretical insights and approaches.Organized into 2 parts one experimental, the other theoretical this volume explores advances around the field of individual molecule biophysics, introducing new points of views on the theoretical properties of molecules and atoms. Individual molecule experiments have provided fresh perspectives on questions including how signal transductions occur on the molecular level, how proteins fold to certain conformations from very heterogeneous structures and the way proteins act in living cells and membranes.This volume is made to further contribute to the quick development of individual molecule biophysics study.