id	author	title	date	pages	extension	mime	words	sentences	flesch	summary	cache	txt
work_mthflpex4rfyzbeheb45z6pl3m	Christopher E. Arcadia	Multicomponent molecular memory	2020	8	.pdf	application/pdf	7558	1002	64	multicomponent reactions can provide a basis for large-scale molecular data storage. libraries of Ugi products, and the files are read back using mass spectrometry. sparse mixture mapping with supervised learning to achieve bit error rates as low as 0.11% represent the largest amount of digital data stored in a nonpolymeric molecular form (Supplementary Fig. 9). Here, however, our goal is to encode millions of bits of information in mixtures of small molecules, requiring that we find can be stored by mapping its digital information onto a set of vectors which determine the presence ("1") or absence ("0") of multiple Ugi products at each Fig. 4 Encoding data into small-molecule mixtures. d The mass spectrum of a data mixture containing six molecules from the 32-compound subset of the Ugi library. Fig. 5 Using sparse mixture mapping and multi-peak readout to improve data recovery. Improving accuracy with sparse data-mixture maps	./cache/work_mthflpex4rfyzbeheb45z6pl3m.pdf	./txt/work_mthflpex4rfyzbeheb45z6pl3m.txt