A Node.js based web framework
Catalysis.js initializer for initializing a Catalysis project
CSL style for Catalysis Letters
Commands for generating code in Catalysis projects
CSL style for ACS Catalysis
CSL style for Catalysis Today
CSL style for Topics in Catalysis
CSL style for Chem Catalysis
CSL style for Catalysis Science & Technology
CSL style for Applied Catalysis B: Environmental
A tool for building Catalysis web app
CSL style for Molecular Catalysis
CSL style for Catalysis Surveys from Asia
A set of utilities responsible checking Catalysis projects
CSL style for Applied Catalysis A, General
A set of utilities responsible for testing Catalysis projects
CSL style for Journal of Molecular Catalysis. B, Enzymatic
CSL style for Journal of Catalysis
CSL style for Reaction Kinetics, Mechanisms and Catalysis
CSL style for Catalysis Communications
CSL style for Catalysis in Green Chemistry and Engineering
Set of Getalt models and utilities to extend the Catalysis framework and projects
Create a new Catalysis plugin
CSL style for Journal of Molecular Catalysis. A, Chemical
Catalysis is a full-stack and runtime-agnostic Javascript framework powered by Rust
New Adsorption Site Locator (NASL) for catalyst materials. Written in rust. Part of the `chemrust` toolchain.
New Adsorption Site Locator (NASL) for catalyst materials. Written in rust. Part of the `chemrust` toolchain. This is the binary crate.
CritPhase: industrial-grade multi-scale physics engine featuring Newton-Raphson gap equation solver, Kibble-Zurek scaling laws, Landau levels with magnetic catalysis, MIT Bag Model, Bjorken energy density, six-factor reactor formula, chain reaction simulation, 1/v neutron cross-section law, CEDE physics-driven optimization, Monte Carlo parameter scanning, uncertainty propagation, fusion reaction database, and nuclide library for U-235/Pu-239/U-233/Cf-252 — constants aligned to CODATA 2018, JENDL-4.0 and ENDF/B-VIII.0
Chemical formula parser that can handle wt% and nested structure
Models how certain thoughts and experiences act as chemical catalysts — accelerating cognitive reactions without being consumed. Catalysts lower the activation energy for synthesis, decomposition, exchange, neutralization, and precipitation reactions between ideas.
Models cognitive fermentation — the slow transformation of raw ideas into refined insights through unconscious incubation and catalysis
Models the Magnum Opus of idea transmutation: substances pass through nigredo/albedo/citrinitas/rubedo stages, crucible reactions combine elements under heat and pressure, and philosopher stone catalysis accelerates breakthroughs.