Ausschreibungen und Aufträge: Dänemark Laborgeräte, optische Geräte und Präzisionsgeräte (außer Gläser) Purchase of 1 microcalorimeter system for advanced research on CO# adsorption, reduction, and related catalytic and materials processes - DNK-Aarhus Laborgeräte, optische Geräte und Präzisionsgeräte (außer Gläser) Dokument Nr...: 793279-2025 (ID: 2025120101580328852) Veröffentlicht: 01.12.2025 * DNK-Aarhus: Dänemark Laborgeräte, optische Geräte und Präzisionsgeräte (außer Gläser) Purchase of 1 microcalorimeter system for advanced research on CO# adsorption, reduction, and related catalytic and materials processes 2025/S 231/2025 793279 Dänemark Laborgeräte, optische Geräte und Präzisionsgeräte (außer Gläser) Purchase of 1 microcalorimeter system for advanced research on CO# adsorption, reduction, and related catalytic and materials processes OJ S 231/2025 01/12/2025 Bekanntmachung vergebener Aufträge oder Zuschlagsbekanntmachung Standardregelung Lieferungen 1. Beschaffer 1.1. Beschaffer Offizielle Bezeichnung: Aarhus Universitet E-Mail: asst@au.dk Rechtsform des Erwerbers: Einrichtung des öffentlichen Rechts Tätigkeit des öffentlichen Auftraggebers: Bildung 2. Verfahren 2.1. Verfahren Titel: Purchase of 1 microcalorimeter system for advanced research on CO# adsorption, reduction, and related catalytic and materials processes Beschreibung: The Department of Chemistry and the CORC Center at Aarhus University has a strong international profile in the field of CO# adsorption, catalysis, and reduction mechanisms, where accurate thermodynamic and kinetic measurements are vital for scientific advancement. Modern global research places increasing emphasis on designing materials and catalysts capable of efficiently capturing and converting CO#, making it critical to resolve minute changes in heat flow and to maintain precise experimental control. To optimize and advance CO# capture, storage, and catalytic conversion, it is essential to employ advanced isothermal nanocalorimetry. This technique provides detailed insight into the thermodynamics of CO# adsorption and binding to functional materials, including metal-organic frameworks and hybrid catalysts. It also enables precise enthalpy measurements for individual mechanistic steps in CO# electroreduction on metal or molecular catalyst surfaces; these steps often involve subtle and overlapping thermal events. Furthermore, the study of proton-coupled electron transfer processes and intermediate formation in electrochemical CO# reduction benefits greatly from the ability to conduct parallel, multi-channel screening, which enables comparative analysis of molecular and heterogeneous catalyst candidates. Quantification of transient heat signatures, as demonstrated in recent studies on CO# chemisorption and dynamic gas-solid interactions, is crucial for differentiating reaction pathways and evaluating catalytic efficiency. In summary, an instrument capable of nanocalorimetric detection, specifically at the level of less than 100 nW, is essential to reliably detect the faint heat signals accompanying CO# binding, reduction, and catalyst activation. Such sensitivity must be supported by ultra-high thermal stability, on the order of one millionth of a degree Celsius, over the extended time frames required for the study of long-lived reactions. It is equally critical to enable comparisons among samples by analyzing them simultaneously. Finally, the ability to conduct precise titration and multi-phase experiments is fundamental, that is why the instrument should be equipped with an automated liquid and gas sample handling to allow for the controlled addition of CO#, co-reactants, or electrolytes at defined intervals, which is indispensable for mechanistic, stepwise studies under real catalytic conditions. No other commercially available microcalorimeter offers the unique combination of nanowatt sensitivity, modular throughput through multi-channel parallel operation, broad temperature range, and configurational flexibility that is found in the TAM IV. Kennung des Verfahrens: a669543b-e939-4ac8-ba64-89fb1e5b9509 Interne Kennung: f7178430-8fda-4e19-a5d9-1effa4556eae Verfahrensart: Verhandlungsverfahren ohne Aufruf zum Wettbewerb 2.1.1. Zweck Art des Auftrags: Lieferungen Haupteinstufung (cpv): 38000000 Laborgeräte, optische Geräte und Präzisionsgeräte (außer Gläser) 2.1.2. Erfüllungsort Postanschrift: Gustav Wieds Vej 10C, building 3130 Stadt: Aarhus C Postleitzahl: 8000 Land, Gliederung (NUTS): Østjylland (DK042) Land: Dänemark 2.1.4. Allgemeine Informationen Rechtsgrundlage: Richtlinie 2014/24/EU 5. Los 5.1. Los: LOT-0000 Titel: Purchase of 1 microcalorimeter system for advanced research on CO# adsorption, reduction, and related catalytic and materials processes Beschreibung: The Department of Chemistry and the CORC Center at Aarhus University has a strong international profile in the field of CO# adsorption, catalysis, and reduction mechanisms, where accurate thermodynamic and kinetic measurements are vital for scientific advancement. Modern global research places increasing emphasis on designing materials and catalysts capable of efficiently capturing and converting CO#, making it critical to resolve minute changes in heat flow and to maintain precise experimental control. To optimize and advance CO# capture, storage, and catalytic conversion, it is essential to employ advanced isothermal nanocalorimetry. This technique provides detailed insight into the thermodynamics of CO# adsorption and binding to functional materials, including metal-organic frameworks and hybrid catalysts. It also enables precise enthalpy measurements for individual mechanistic steps in CO# electroreduction on metal or molecular catalyst surfaces; these steps often involve subtle and overlapping thermal events. Furthermore, the study of proton-coupled electron transfer processes and intermediate formation in electrochemical CO# reduction benefits greatly from the ability to conduct parallel, multi-channel screening, which enables comparative analysis of molecular and heterogeneous catalyst candidates. Quantification of transient heat signatures, as demonstrated in recent studies on CO# chemisorption and dynamic gas-solid interactions, is crucial for differentiating reaction pathways and evaluating catalytic efficiency. In summary, an instrument capable of nanocalorimetric detection, specifically at the level of less than 100 nW, is essential to reliably detect the faint heat signals accompanying CO# binding, reduction, and catalyst activation. Such sensitivity must be supported by ultra-high thermal stability, on the order of one millionth of a degree Celsius, over the extended time frames required for the study of long-lived reactions. It is equally critical to enable comparisons among samples by analyzing them simultaneously. Finally, the ability to conduct precise titration and multi-phase experiments is fundamental, that is why the instrument should be equipped with an automated liquid and gas sample handling to allow for the controlled addition of CO#, co-reactants, or electrolytes at defined intervals, which is indispensable for mechanistic, stepwise studies under real catalytic conditions. No other commercially available microcalorimeter offers the unique combination of nanowatt sensitivity, modular throughput through multi-channel parallel operation, broad temperature range, and configurational flexibility that is found in the TAM IV. Interne Kennung: 1299b8a6-4c1d-4089-a683-4e8aaa998fee 5.1.1. Zweck Art des Auftrags: Lieferungen Haupteinstufung (cpv): 38000000 Laborgeräte, optische Geräte und Präzisionsgeräte (außer Gläser) 5.1.2. Erfüllungsort Postanschrift: Gustav Wieds Vej 10C, building 3130 Stadt: Aarhus C Postleitzahl: 8000 Land, Gliederung (NUTS): Østjylland (DK042) Land: Dänemark 5.1.6. Allgemeine Informationen Auftragsvergabeprojekt nicht aus EU-Mitteln finanziert Die Beschaffung fällt unter das Übereinkommen über das öffentliche Beschaffungswesen: ja 5.1.10. Zuschlagskriterien Kriterium: Art: Qualität Bezeichnung: Quality Beschreibung: An instrument capable of nanocalorimetric detection, specifically at the level of less than 100 nW, is essential to reliably detect the faint heat signals accompanying CO# binding, reduction, and catalyst activation. Such sensitivity must be supported by ultra-high thermal stability, on the order of one millionth of a degree Celsius, over the extended time frames required for the study of long-lived reactions. It is equally critical to enable comparisons among samples by analyzing them simultaneously. Finally, the ability to conduct precise titration and multi-phase experiments is fundamental, that is why the instrument should be equipped with an automated liquid and gas sample handling to allow for the controlled addition of CO#, co-reactants, or electrolytes at defined intervals, which is indispensable for mechanistic, stepwise studies under real catalytic conditions. Kategorie des Gewicht-Zuschlagskriteriums: Gewichtung (Prozentanteil, genau) Zuschlagskriterium Zahl: 100,00 5.1.15. Techniken Rahmenvereinbarung: Keine Rahmenvereinbarung Informationen über das dynamische Beschaffungssystem: Kein dynamisches Beschaffungssystem Elektronische Auktion: nein 5.1.16. Weitere Informationen, Schlichtung und Nachprüfung Überprüfungsstelle: Klagenævnet for udbud Informationen über die Überprüfungsfristen: Following the notification, a standstill period of 10 calendar days will be held in accordance to paragraph 3 of Act No. 593 of 2 June 2016 on the Danish Act on the Complaints Board for public Procurement. This implies that the Contracting Authority cannot sign the Contract with the winning Tenderer before the standstill period has expired. In case of complaints about tenders or decisions, e.g. award of contracts covered by Section II or III in the Danish Public Procurement Act must be submitted to the Complaints Board for Public Procurement (Klagenævnet for udbud) within 45 calendar days from the day after the contractor published a notice in the Official Journal on the conclusion of a contract. At the latest concurrently with submission of an appeal to the Complaints Board for Public Procurement, the complainant must inform the Contracting Authority of the alleged infringement, and whether the appeal is to be referred to the board. Organisation, die weitere Informationen für die Nachprüfungsverfahren bereitstellt: Konkurrence- og Forbrugerstyrelsen 6. Ergebnisse Wert aller in dieser Bekanntmachung vergebenen Verträge: 1 691 760,00 DKK Direktvergabe: Begründung der Direktvergabe: Der Auftrag kann nur von einem bestimmten Wirtschaftsteilnehmer ausgeführt werden, da aus technischen Gründen kein Wettbewerb vorhanden ist Sonstige Begründung: The Department of Chemistry and the CORC Center at Aarhus University has a strong international profile in the field of CO# adsorption, catalysis, and reduction mechanisms, where accurate thermodynamic and kinetic measurements are vital for scientific advancement. Modern global research places increasing emphasis on designing materials and catalysts capable of efficiently capturing and converting CO#, making it critical to resolve minute changes in heat flow and to maintain precise experimental control. To optimize and advance CO# capture, storage, and catalytic conversion, it is essential to employ advanced isothermal nanocalorimetry. This technique provides detailed insight into the thermodynamics of CO# adsorption and binding to functional materials, including metal- organic frameworks and hybrid catalysts. It also enables precise enthalpy measurements for individual mechanistic steps in CO# electroreduction on metal or molecular catalyst surfaces; these steps often involve subtle and overlapping thermal events. Furthermore, the study of proton-coupled electron transfer processes and intermediate formation in electrochemical CO# reduction benefits greatly from the ability to conduct parallel, multi-channel screening, which enables comparative analysis of molecular and heterogeneous catalyst candidates. Quantification of transient heat signatures, as demonstrated in recent studies on CO# chemisorption and dynamic gas-solid interactions, is crucial for differentiating reaction pathways and evaluating catalytic efficiency. In summary, an instrument capable of nanocalorimetric detection, specifically at the level of less than 100 nW, is essential to reliably detect the faint heat signals accompanying CO# binding, reduction, and catalyst activation. Such sensitivity must be supported by ultra-high thermal stability, on the order of one millionth of a degree Celsius, over the extended time frames required for the study of long-lived reactions. It is equally critical to enable comparisons among samples by analyzing them simultaneously. Finally, the ability to conduct precise titration and multi-phase experiments is fundamental, that is why the instrument should be equipped with an automated liquid and gas sample handling to allow for the controlled addition of CO#, co-reactants, or electrolytes at defined intervals, which is indispensable for mechanistic, stepwise studies under real catalytic conditions. No other commercially available microcalorimeter offers the unique combination of nanowatt sensitivity, modular throughput through multi-channel parallel operation, broad temperature range, and configurational flexibility that is found in the TAM IV. 6.1. Ergebnis, Los- Kennung: LOT-0000 Status der Preisträgerauswahl: Es wurde mindestens ein Gewinner ermittelt. 6.1.2. Informationen über die Gewinner Wettbewerbsgewinner: Offizielle Bezeichnung: Malvern Panalytical Angebot: Kennung des Angebots: 1 microcalorimeter system for advanced research on CO# adsorption, reduction, and related catalytic and materials processes Kennung des Loses oder der Gruppe von Losen: LOT-0000 Wert der Ausschreibung: 1 691 760,00 DKK Vergabe von Unteraufträgen: Nein Informationen zum Auftrag: Kennung des Auftrags: Purchase of 1 microcalorimeter system for advanced research on CO# adsorption, reduction, and related catalytic and materials processes - Malvern Panalytical Datum des Vertragsabschlusses: 27/11/2025 6.1.4. Statistische Informationen Zusammenfassung der beim Erwerber eingegangenen Überprüfungsanträge: Anzahl der Beschwerdeführer: 0 Eingegangene Angebote oder Teilnahmeanträge: Art der eingegangenen Einreichungen: Angebote Anzahl der eingegangenen Angebote oder Teilnahmeanträge: 1 8. Organisationen 8.1. ORG-0001 Offizielle Bezeichnung: Aarhus Universitet Registrierungsnummer: 31119103 Postanschrift: Nordre Ringgade 1 Stadt: Aarhus C Postleitzahl: 8000 Land, Gliederung (NUTS): Østjylland (DK042) Land: Dänemark Kontaktperson: Ann Sophie Steffensen E-Mail: asst@au.dk Telefon: 23382421 Internetadresse: https://www.au.dk/ Rollen dieser Organisation: Beschaffer 8.1. ORG-0002 Offizielle Bezeichnung: Klagenævnet for udbud Registrierungsnummer: 37795526 Postanschrift: Toldboden 2 Stadt: Viborg Postleitzahl: 8800 Land, Gliederung (NUTS): Vestjylland (DK041) Land: Dänemark Kontaktperson: Klagenævnet for udbud E-Mail: klfu@naevneneshus.dk Telefon: +45 72405708 Internetadresse: https://erhvervsstyrelsen.dk/klagenaevnet-for-udbud Rollen dieser Organisation: Überprüfungsstelle 8.1. ORG-0003 Offizielle Bezeichnung: Konkurrence- og Forbrugerstyrelsen Registrierungsnummer: 10294819 Postanschrift: Carl Jacobsens Vej 35 Stadt: Valby Postleitzahl: 2500 Land, Gliederung (NUTS): Byen København (DK011) Land: Dänemark Kontaktperson: Konkurrence- og Forbrugerstyrelsen E-Mail: kfst@kfst.dk Telefon: +45 41715000 Internetadresse: https://www.kfst.dk Rollen dieser Organisation: Organisation, die weitere Informationen für die Nachprüfungsverfahren bereitstellt 8.1. ORG-0004 Offizielle Bezeichnung: Malvern Panalytical Größe des Wirtschaftsteilnehmers: Kleinst-, kleines oder mittleres Unternehmen Registrierungsnummer: 31756154 Stadt: Virum Postleitzahl: 2830 Land, Gliederung (NUTS): Københavns omegn (DK012) Land: Dänemark Rollen dieser Organisation: Bieter Gewinner dieser Lose: LOT-0000 8.1. ORG-0005 Offizielle Bezeichnung: Mercell Holding ASA Registrierungsnummer: 980921565 Postanschrift: Askekroken 11 Stadt: Oslo Postleitzahl: 0277 Land, Gliederung (NUTS): Oslo (NO081) Land: Norwegen Kontaktperson: eSender E-Mail: publication@mercell.com Telefon: +47 21018800 Fax: +47 21018801 Internetadresse: http://mercell.com/ Rollen dieser Organisation: TED eSender Informationen zur Bekanntmachung Kennung/Fassung der Bekanntmachung: 3365250a-d1c3-459b-9595-6b676fc6188e - 01 Formulartyp: Ergebnis Art der Bekanntmachung: Bekanntmachung vergebener Aufträge oder Zuschlagsbekanntmachung Standardregelung Unterart der Bekanntmachung: 29 Datum der Übermittlung der Bekanntmachung: 27/11/2025 13:19:50 (UTC+00:00) Westeuropäische Zeit, GMT Bekanntmachung eSender-Übermittlungsdatum: 27/11/2025 14:05:19 (UTC+00:00) Westeuropäische Zeit, GMT Sprachen, in denen diese Bekanntmachung offiziell verfügbar ist: Englisch ABl. S Nummer der Ausgabe: 231/2025 Datum der Veröffentlichung: 01/12/2025 Referenzen: http://mercell.com/ https://erhvervsstyrelsen.dk/klagenaevnet-for-udbud https://www.au.dk/ https://www.kfst.dk http://icc-hofmann.net/NewsTicker/202512/ausschreibung-793279-2025-DNK.txt -------------------------------------------------------------------------------- Database Operation & Alert Service (icc-hofmann) for: The Office for Official Publications of the European Communities The Federal Office of Foreign Trade Information Phone: +49 6082-910101, Fax: +49 6082-910200, URL: http://www.icc-hofmann.de