Co-constructive development of a green chemistry-based model for the assessment of nanoparticles synthesis

•We propose the synergy of ordinal regression methods for multiple criteria sorting.•We postulate consideration of all maximal sets of consistent assignment examples.•The proposed approach is used to classify the synthesis protocols of silver nanoparticles.•The precise recommendation is judged again...

Full description

Saved in:
Bibliographic Details
Published in:European journal of operational research 2018-01, Vol.264 (2), p.472-490
Main Authors: Kadziński, Miłosz, Cinelli, Marco, Ciomek, Krzysztof, Coles, Stuart R., Nadagouda, Mallikarjuna N., Varma, Rajender S., Kirwan, Kerry
Format: Article
Language:English
Subjects:
Green chemistry
Multiple criteria analysis
Ordinal classification
Silver nanoparticles
Sustainability
Citations: Items that this one cites
Items that cite this one
Online Access:Get full text
Tags: Add Tag
No Tags, Be the first to tag this record!
Description
Summary:•We propose the synergy of ordinal regression methods for multiple criteria sorting.•We postulate consideration of all maximal sets of consistent assignment examples.•The proposed approach is used to classify the synthesis protocols of silver nanoparticles.•The precise recommendation is judged against robust and stochastic results.•We highlight the mutual learning of the preference model and the decision maker. Nanomaterials (materials at the nanoscale, 10−9 meters) are extensively used in several industry sectors due to the improved properties they empower commercial products with. There is a pressing need to produce these materials more sustainably. This paper proposes a Multiple Criteria Decision Aiding (MCDA) approach to assess the implementation of green chemistry principles as applied to the protocols for nanoparticles synthesis. In the presence of multiple green and environmentally oriented criteria, decision aiding is performed with a synergy of ordinal regression methods; preference information in the form of desired assignment for a subset of reference protocols is accepted. The classification models, indirectly derived from such information, are composed of an additive value function and a vector of thresholds separating the pre-defined and ordered classes. The method delivers a single representative model that is used to assess the relative importance of the criteria, identify the possible gains with improvement of the protocol’s evaluations and classify the non-reference protocols. Such precise recommendation is validated against the outcomes of robustness analysis exploiting the sets of all classification models compatible with all maximal subsets of consistent assignment examples. The introduced approach is used with real-world data concerning silver nanoparticles. It is proven to effectively resolve inconsistency in the assignment examples, tolerate ordinal and cardinal measurement scales, differentiate between inter- and intra-criteria attractiveness and deliver easily interpretable scores and class assignments. This work thoroughly discusses the learning insights that MCDA provided during the co-constructive development of the classification model.
ISSN:0377-2217
1872-6860
DOI:10.1016/j.ejor.2016.10.019