ACS Catalysis

EQS-News: Carbios demonstrates superior performance of its enzyme in world-renowned scientific publication

Retrieved on: 
Tuesday, October 17, 2023

By using a standardized method for comparing PET degrading enzymes under industrial conditions, Carbios and Toulouse Biotechnology Institute (TBI) validate the superior performance of Carbios' enzyme and confirm Carbios' leadership in the field.

Key Points: 
  • By using a standardized method for comparing PET degrading enzymes under industrial conditions, Carbios and Toulouse Biotechnology Institute (TBI) validate the superior performance of Carbios' enzyme and confirm Carbios' leadership in the field.
  • Moreover, since 2020, Carbios has significantly enhanced the enzyme used in this article, further extending its lead.
  • Alain Marty, Chief Scientific Officer of Carbios: "With this publication in the prestigious ACS Catalysis journal, we wanted to offer the scientific community a standardized method for comparing enzymes under industrial conditions.
  • This study confirms Carbios' position as a leader not only for the superior performance of its enzyme for the degradation of PET, but above all in its industrial-scale application for the biorecycling of plastic and textiles.

Carbios Demonstrates Superior Performance of Its Enzyme in World-Renowned Scientific Publication

Retrieved on: 
Thursday, October 12, 2023

By using a standardized method for comparing PET degrading enzymes under industrial conditions, Carbios and Toulouse Biotechnology Institute (TBI) validate the superior performance of Carbios' enzyme and confirm Carbios' leadership in the field.

Key Points: 
  • By using a standardized method for comparing PET degrading enzymes under industrial conditions, Carbios and Toulouse Biotechnology Institute (TBI) validate the superior performance of Carbios' enzyme and confirm Carbios' leadership in the field.
  • Moreover, since 2020, Carbios has significantly enhanced the enzyme used in this article, further extending its lead.
  • Alain Marty, Chief Scientific Officer of Carbios: "With this publication in the prestigious ACS Catalysis journal, we wanted to offer the scientific community a standardized method for comparing enzymes under industrial conditions.
  • This study confirms Carbios' position as a leader not only for the superior performance of its enzyme for the degradation of PET, but above all in its industrial-scale application for the biorecycling of plastic and textiles.

Kanazawa University research: Charge separation imaging on the surfaces of titanium dioxide photoelectrocatalytic nanotubes

Retrieved on: 
Friday, February 4, 2022

Nanotubes of titanium dioxide (TiO2) are semiconductors that are widely used for this purpose.

Key Points: 
  • Nanotubes of titanium dioxide (TiO2) are semiconductors that are widely used for this purpose.
  • Now, Marina Makarova at Kanazawa University and colleagues in Japan and Europe, have used an innovative technique called scanning electrochemical cell microscopy (SECCM) to identify this distribution.
  • To first measure the success of PEC water splitting, the release of oxygen (the reaction product accompanying hydrogen) was measured.
  • SECCM is a novel imaging technique that enables the simultaneous electrochemical and topographical imaging of surfaces.

Kanazawa University research: Charge separation imaging on the surfaces of titanium dioxide photoelectrocatalytic nanotubes

Retrieved on: 
Friday, February 4, 2022

Nanotubes of titanium dioxide (TiO2) are semiconductors that are widely used for this purpose.

Key Points: 
  • Nanotubes of titanium dioxide (TiO2) are semiconductors that are widely used for this purpose.
  • Now, Marina Makarova at Kanazawa University and colleagues in Japan and Europe, have used an innovative technique called scanning electrochemical cell microscopy (SECCM) to identify this distribution.
  • To first measure the success of PEC water splitting, the release of oxygen (the reaction product accompanying hydrogen) was measured.
  • SECCM is a novel imaging technique that enables the simultaneous electrochemical and topographical imaging of surfaces.

Forge Nano and Partners Issued in Two ACS Catalysis Publications

Retrieved on: 
Wednesday, October 20, 2021

DENVERand THORNTON, Colo., Oct. 20, 2021 /PRNewswire/ --Forge Nano Inc. was featured in two ACS Catalysis publication in the last year demonstrating the benefits of Atomic Layer Deposition technology for chemical manufacturing.

Key Points: 
  • DENVERand THORNTON, Colo., Oct. 20, 2021 /PRNewswire/ --Forge Nano Inc. was featured in two ACS Catalysis publication in the last year demonstrating the benefits of Atomic Layer Deposition technology for chemical manufacturing.
  • The publications are the most recent of many that demonstrate the real-world application of Atomic Layer Deposition for commodity chemical feedstocks and valuable bioderived alternatives.
  • Forge Nano's coating technology improves lifetime, selectivity, durability and can lower operating temperatures, and even decrease operating costs for chemical manufacturing.
  • Forge Nano technology significantly improves materials performance in lithium battery, catalysis, additive manufacturing, pharmaceuticals, and compound semiconductor markets.