A NEW CELLULOSE AGE IS COMING.
A BREAKTHROUGH IN BARRIER TECHNOLOGY FOR PAPER, BOARD & BEYOND.
OUR TECHNOLOGY IS

LOW COST
THE TOTAL ESTIMATED COST OF THE PROCESS IS <0.1¢ PER SQUARE METER

A ROBUST TREATMENT
BARRIERS PROPERTIES ARE LONG-LASTING SINCE THE SUBSTRATE IS GRAFTED WITH COVALENT BONDS.

PLASTIC-FREE AND SUSTAINABLE
OUR PATENTED PROCESS KEEPS ALL THE REPULPABILITY AND BIODEGRADBILITY OF THE MATERIAL.

FAST & VERSATILE
REACTION TIME OF 0.1 SECOND. ABILITY TO TREAT FINAL PRODUCTS SUCH AS CORRUGATED CARDBOARDS OR EVEN 3D SHAPES.

SAFE FOR CONSUMERS
WHAT IS LEFT ON THE SUBSTRATE IS SIMPLY A FATTY ACID ESTER, A SAFE COMPONENT OF DIETERATY FATS.

LOWERING CARBON EMISSIONS
REDUCE CO2 EMISSIONS FROM 20% UP TO 90% DEPENDING ON THE MATERIAL REPLACED.
DEMONSTRATION of Cellulotech’s Technology on a Paper Towel:
The Lotus Leaf Effect
SUSTAINABILITY AND COST SAVINGS FOR MANY INDUSTRIES
FOOD PACKAGING
CELLULOTECH HAS THE SOLUTION TO REPLACE PLASTIC COATING, WAXES AND HARMUL CHEMICALS SUCH AS PFASs FOR MANY TYPES OF PACKAGING OFFERING A FULLY RENEWABLE MONO-MATERIAL ALTERNATIVE AT A SIMLIAR OR LOWER COST.
CARDBOARD
BY MAKING CARDBOARD PERMANENTLY HYDROPHOBIC AT A LOWER COST, WE STRENGTHEN ITS MECHANICAL PROPERTIES AND ALLOW MANUFACTURERS TO SAVE PULP AND USERS TO AVOID LOSSES DUE TO “CREEPING”. WE CAN ALSO ADD MORE BARRIERS DEPENDING ON THE APPLICATION.
RELEASE LINERS
CHROMATOGENY IS THE IDEAL TECHNOLOGY FOR THE BILLIONS OF LABELS PRINTED EACH DAY AS IT WILL PROVIDE PERMANENT BARRIERS AT A LOWER COST WHILE OFFERING A MUCH BETTER ENVIRONMENTAL FOOTPRINT THAN SILICONE AND SIMPLER RECYCLING.
CONSTRUCTION AND MANUFACTURING
TREATED CARDBOARD OFFERS NEW POSSIBILITIES TO THE CONSTRUCTION AND MANUFACTURING INDUSTRY WITH A LOW-COST RENEWABLE MATERIAL THAT OFFERS EXTRAORDINARY MECHANICAL AND INSULATION PROPERTIES. WE CAN ALSO TREAT PLYWOOD TOO PROTECT IT FROM HUMIDITY AND MAKE PAINT LAST LONGER.
PERSONAL PROTECTIVE EQUIPMENTS
THE COVID-19 CRISIS HAS REVEALED THE CHALLENGES FACED WITH THE SUPPLY OF PERSONAL PROTECTIVE EQUIPMENTS SUCH AS FACE MASKS .
OUR TECHNOLOGY CAN OFFER A CHEAPER, MORE COMFORABLE AND RENEWABLE PAPER MONO-MATERIAL THAT MATCHES MEDICAL STANDARDS FOR SURGICAL FACE MASKS, GOWNS OR FILTERS.
TEXTILE
OUR PROCESS CAN BE USED BY THE TEXTILE INDUSTRY TO PROVIDE BARRIERS TO FABRICS AND NOTABLY GET RID OF PFAS.
… AND MUCH MORE
OUR TECHNOLOGY CAN BE USED FOR MANY OTHER APPLICATIONS SUCH AS ENVIRONMENTAL REMEDIATION, WATER DESALINATION AND MUCH MORE.
OUR LATEST NEWS
Mr. Andrew Filler joins Cellulotech’s Advisory Board
Cellulotech is happy to announce that Mr. Andrew Filler has joined Cellulotech’s Strategic Advisory Board. Mr. Filler has over 25 years of experience in intellectual property management. He is currently the General Counsel and Vice President of Intellectual Property...
Cellulotech believes in cellulose as the key material of the 21st century
Link to the original article on ExpandFibre. In our series of ExpandFibre member introductions, meet Cellulotech. The Canadian material science R&D company, with focus on cellulose and chromatogeny, has developed a completely new and more efficient chemical...
Cellulotech joins the EXPANDFIBRE ecosystem
We are thrilled to announce Cellulotech has joined EXPANDFIBRE, an R&D ecosystem with the purpose of accelerating the development of sustainable bioproducts. The ecosystem is managed by Fortum and Metsä. Cellulotech’s membership in EXPANDFIBRE will allow us to...
CELLULOSE, THE MATERIAL FOR THE 21ST CENTURY
THE EXTENSIVE USE OF NON-RENEWABLE, HARMFUL and carbon-intensive materials IN OUR EVERYDAY LIFE MUST BE SIGNIFICANTLY REDUCED IN THE COMING DECADES IF WE WANT TO OVERCOME THE ENVIRONMENTAL CHALLENGES IN FRONT OF US.
Cellulose is the most abundant organic compound on earth. Completely renewable, we believe it has tremendous untapped potential for our economic future and our environment.
Cellulotech is a MATERIAL SCIENCE company focused on R&D around cellulose with a patent portfolio. Our main focus is on chromatogeny, a process discovered by our Chief Scientist, Dr. Daniel Samain.
