Matrix‐free laser desorption/ionization mass spectrometry imaging for rapid evaluation of wood biomass conversion

Abstract

AbstractRationaleThis study overcomes traditional biomass analysis limitations by introducing a pioneering matrix‐free laser desorption/ionization (LDI) approach in mass spectrometry imaging (MSI) for efficient lignin evaluation in wood. The innovative acetic acid–peracetic acid (APA) treatment significantly enhances lignin detection, enabling high‐throughput, on‐site analysis.MethodsWood slices, softwood from a conifer tree (Japanese cypress) and hardwood from a broadleaf tree (Japanese beech), were analyzed using MSI with a Fourier transform ion cyclotron resonance mass spectrometer. The developed APA treatment demonstrated effectiveness for MSI analysis of biomass.ResultsOur imaging technique successfully distinguishes between earlywood and latewood and enables the distinct visualization of lignin in these and other wood tissues, such as the radial parenchyma. This approach reveals significant contrasts in MSI. It has identified intense ions from β‐O‐4‐type lignin, specifically in the radial parenchyma of hardwood, highlighting the method's precision and utility in wood tissue analysis.ConclusionsThe benefits of matrix‐free LDI include reduced peak overlap, consistent sample quality, preservation of natural sample properties, enhanced analytical accuracy, and reduced operational costs. This innovative approach is poised to become a standard method for rapid and precise biomass evaluation and has important applications in environmental research and sustainable resource management and is crucial for the effective management of diverse biomass, paving the way towards a sustainable, circular society.