29 November 202323 November 2023 Tandem Single Atom Electrocatalyst Realizes Reduction of CO2 to Ethanol Promising strategy to mitigate carbon dioxide emission
31 July 202326 July 2023 Clariant Catalysts fosters decarbonization research in China through sponsorship of NCC Award Clariant sponsored the Achievement Award, presented by the Catalysis Society of China, for the most significant R&D accomplishment in catalysis
8 September 20226 September 2022 Direct conversion of carbon dioxide into bulk chemicals and liquid fuels High-efficiency utilization of CO2 facilitates the reduction of CO2 concentration in the global atmosphere and hence the alleviation of the greenhouse effect
Direkte Umwandlung von Kohlendioxid in Grundchemikalien und flüssige Kraftstoffe Die hocheffiziente Nutzung von CO2 erleichtert die Verringerung der CO2-Konzentration in der Erdatmosphäre und damit die Abschwächung des Treibhauseffekts
25 January 202224 January 2022 Neuer katalytischer Ansatz wandelt rohe Biomasse direkt in Erdgas mit geringem Kohlenstoffausstoß um Katalysator ermöglicht eine nahezu vollständige Umwandlung verschiedener land- und forstwirtschaftlicher Produkte in Erdgas
New Catalytic Approach Directly Converts Raw Biomass into Natural Gas with Low Carbon Footprint Researchers prepared a robust catalyst, achieving nearly complete conversion of various agricultural and forestry to natural gas
19 January 202213 January 2022 Researchers Develop Pb1Cu Catalyst for CO2-to-formate Conversion The next big thing: A new technology for directly converting carbon dioxide into pure formic acid. Novel electrochemical device based on solid-state electrolyte
Das nächste große Ding: Neue Technologie zur direkten Umwandlung von Kohlendioxid in reine Ameisensäure Neuartiges elektrochemisches Gerät auf Basis eines Festkörperelektrolyten
15 November 202111 November 2021 Intensified solar thermochemical carbon dioxide splitting over iron-based perovskite Recently, a research team from Dalian Institute of Chemical Physics (DICP), Chinese Academy of Sciences (CAS) reported a novel material for intensified CO production via the two-step STCS process
5 October 202130 September 2021 Researchers reveal multi-path mechanism in electrochemical CO2 reduction A double-peak activity trend was obtained on a reaction phase diagram
Forscher enthüllen Mehrweg-Mechanismus bei elektrochemischer CO2-Reduktion Das Reaktionsphasendiagramm wurde auf der Grundlage des Ansatzes der "globalen Energieoptimierung" erstellt und beschreibt den Aktivitätstrend für die CO2RR zu Formiat. Aufgrund der Berücksichtigung von Mehrwegeeffekten wurde ein Aktivitätsverlauf mit zwei Spitzenwerten ermittelt
21 May 202116 June 2021 New Method Boosts Syngas Generation from Biopolyols The Dalian Institute of Chemical Physics (DICP) proposed a new method to realize photocatalytic conversion of biopolyols to syngas at room temperature with high efficiency
15 January 20219 September 2021 Scientists Identify Transition Metal for Highly-efficient CO2 Activation Chinese study highlights the pivotal roles played by the M[η2-(O,O)C] species in CO2 activation
18 June 201917 June 2019 Scientists Develop a Chemocatalytic Approach for One-Pot Reaction of Cellulosic Ethanol Cellulosic ethanol is one of the most important biofuels, yet commercial production is hindered by the low efficiency and high cost of the bioconversion process.
18 May 20173 May 2017 DICP Researchers Develop Efficient Multifunctional Catalyst for CO2 Hydrogenation to Gasoline Catalyst exhibited 78% selectivity to C5–C11 as well as low CH4 and CO selectivity under industrial relevant conditions
22 September 2008 Wolframcarbid als Katalysator für die Umsetzung von Cellulose in Ethylenglycol Neue Wege zur Biomasse-Nutzung