236 research outputs found
Identification and safety effects of road user related measures. Deliverable 4.2 of the H2020 project SafetyCube
Safety CaUsation, Benefits and Efficiency (SafetyCube) is a European Commission supported
Horizon 2020 project with the objective of developing an innovative road safety Decision Support
System (DSS). The DSS will enable policy-makers and stakeholders to select and implement the
most appropriate strategies, measures, and cost-effective approaches to reduce casualties of all
road user types and all severities.
This document is the second deliverable (4.2) of work package 4, which is dedicated to identifying
and assessing road safety measures related to road users in terms of their effectiveness.
The focus of deliverable 4.2 is on the identification and assessment of countermeasures and
describes the corresponding operational procedure and outcomes. Measures which intend to
increase road safety of all kind of road user groups have been considered [...continues]
Inventory of assessed infrastructure risk factors and measures, Deliverable 5.4 of the H2020 project SafetyCube
Inventory of assessed infrastructure risk factors and measures, Deliverable 5.4 of the H2020 project SafetyCub
Pathology and oncology in Africa: education and training for the future in cancer research– East African Regional Meeting
Estudo das propriedades térmicas de filmes poliméricos compostos de Speek, derivados do benzoimidazol e ácido fosfotúngstico
HYDROFORMYLATION OF OLEFINS CATALYZED BY ALKENE COMPLEXES OF PLATINUM(0)
In the presence of methanesulfonic acid the platinum(0) complex [Pt(C2H4)(DPPB)] catalyses the hydroformylation of various olefins. In some cases there is quite good chemoselectivity and high regioselectivity towards n-aldehyde. © 1991
HYDROFORMYLATION OF CINNAMIC ACID-DERIVATIVES CATALYZED BY RHODIUM COMPLEXES
The hydroformylation of methyl cinnamate catalysed by various rhodium complexes affords the aldehyde 1a with good chemo- and regio-selectivity, while in the case of methyl p-chlorocinnamate the predominant reaction is the substrate hydrogenation. Higher yields of the desired aldehydes 1a and 1b are obtained by hydroformylation of the cinnamaldehyde and p-chlorocinnamaldehyde diethylacetal, respectively, under the same reaction conditions. These aldehyde products are valuable drug precursors. © 1993
Aldehyde to Ketone Homologation Enabled by Improved Access to Thioalkyl Phosphonium Salts
La catalisi in ambiente bifasico acquoso: una moderna tecnologia verso processi industriali a minor impatto ambientale
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