Andrew L. Otsuki scite author profile

The dye and pigment manufacturing industry is one of the most polluting in the world. Each year, over one million tons of petrochemical colorants are produced globally, the synthesis of which generates a large amount of waste. Naturally occurring, plant‐based dyes, on the other hand, are resource intensive to produce (land, water, energy), and are generally less effective as colorants. Between these two extremes would be synthetic dyes that are fully sourced from biomass‐derived intermediates. The present work describes the synthesis of such compounds, containing strong chromophores that lead to bright colors in the yellow to red region of the visible spectrum. The study was originally motivated by an early report of an unidentified halomethylfurfural derivative which resulted from hydrolysis in the presence of barium carbonate, now characterized as a butenolide of 5‐(hydroxymethyl)furfural (HMF). The method has been generalized for the synthesis of dyes from other biobased platform molecules, and a mechanism is proposed.

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Diversification of the Renewable Furanic Platform via 5‐(Chloromethyl)furfural‐Based Carbon Nucleophiles

Miao

Shevchenko

Otsuki

et al. 2020

ChemSusChem

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Biobased 5-(chloromethyl)furoate and 5-methylfuroate esters can be deprotonated to function as furylogous lithium enolates, and the former can also undergo zinc insertion to access Reformatsky-type chemistry. Carbon nucleophilicity represents hitherto little-explored reactivity in these key carbohydratederived platform molecules, expanding their synthetic utility and potentially opening up new sustainable product markets (e. g., in epoxy resins or biobased dyes).

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Demonstrating More Realistic Research Outcomes to Undergraduates in the Organic Teaching Lab: Separation of Product Mixtures, Structure Analysis, and Mechanistic Inquiry

et al. 2019

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How well does the undergraduate organic chemistry laboratory curriculum prepare students for academic research, or for a bench job in industry? Running experiments that are more representative of research chemistry has the potential to better equip students for working in a research laboratory, while at the same time giving them insight into a typical outcome in a research project. We describe here an experiment that we have launched in the sophomore organic chemistry lab at UC Davis that presents challenges in chromatographic separation, structural assignment by NMR, and mechanistic interpretation. Optional exercises in computational modeling of the NMR data and chromophore analysis by UV–vis/fluorescence measurements are included.

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Andrew L. Otsuki

Production of cellulosic gasoline via levulinic ester self-condensation

Butenolide Derivatives of Biobased Furans: Sustainable Synthetic Dyes

Diversification of the Renewable Furanic Platform via 5‐(Chloromethyl)furfural‐Based Carbon Nucleophiles

Demonstrating More Realistic Research Outcomes to Undergraduates in the Organic Teaching Lab: Separation of Product Mixtures, Structure Analysis, and Mechanistic Inquiry

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