InnoSyn

Tomorrow's chemistry. Today.

About Us

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Years of
experience

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Processes implemented
at industrial scale

Transform your vision into reality.

InnoSyn
InnoSyn
InnoSyn
InnoSyn
InnoSyn

InnoSyn specializes in custom synthesis and process optimization for various chemical industries, providing tailored solutions for efficient production and high-quality compounds.

Tomorrow's chemistry. Today

InnoSyn

Tomorrow's chemistry. Today

InnoSyn

Tomorrow's chemistry. Today

InnoSyn

Our passion

Transforming challenges into solutions.

InnoSyn

01

Invent

Are you seeking a new, efficient method to synthesize your target chemical compound? Our method-agnostic approach has consistently demonstrated its efficacy. Beginning with a concept on paper, we work closely with our clients to deliver optimal results

02

Improve

Experiencing challenges related to the cost and quality of your products? With over 30 years of expertise in optimizing plant processes, we can provide significant value to your business.

03

Implement

For those seeking manufacturing capacity for a new chemical product or requiring production of a specific chemical, we offer a versatile, multi-purpose pilot plant. Whether you have a lab recipes or advanced technical packages, we are fully equipped and ready to support you—either at our facility or at your preferred location.
Products

Discover innovation. Experience excellence. Our products, your success.

Our products are designed to elevate your business. From cutting-edge technologies to innovative solutions, we offer a range of tools that enhance efficiency, drive growth, and ensure compliance. Experience unmatched quality and performance with products tailored to meet your unique needs. Discover how our offerings can transform your operations and lead you to success!

Recombinant Pig Liver Estrase (PLE)
Recombinant Pig Liver Estrase (PLE)
Recombinant pig liver esterases are commonly used in organic chemistry for racemic resolutions and desymmetrizations in asymmetric syntheses of chiral alcohols or esters.
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Hydroxynitrile lyases (NHL)
Hydroxynitrile lyases (NHL)
Hydroxynitrile lyases catalyze the addition of HCN to aldehydes and ketones thereby forming α-hydroxynitriles, also known as cyanohydrin.
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Glucose Dehydrogenase (GDH-01)
Glucose Dehydrogenase (GDH-01)
Glucose Dehydrogenase enables the regeneration of NAD(P)H from NAD(P)+ by catalyzing the oxidation to D-glucose to D-glucono-1,5-lactone.
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From Lab Procedure to Industrial Reality: Continuous Flow DIBAL-H Reduction of Esters to Aldehydes

From Lab Procedure to Industrial Reality: Continuous Flow DIBAL-H Reduction of Esters to Aldehydes

This case study explores the selective partial reduction of esters to aldehydes, a process known for its challenges due to fast reaction kinetics, high exothermicity, and unstable intermediates. Traditional batch methods demand stringent temperature control and slow dosing of DIBAL-H at cryogenic conditions (-70 to -50 ºC), often resulting in over-reduction to alcohols. Here, we present a pilot-scale solution using continuous flow chemistry, achieving outputs of 0.72–1.2 kg/h. By incorporating 3D metal printing for flow reactors, heat exchangers, and static mixers, we demonstrate a scalable and efficient approach to managing this highly reactive process.

Aerobic Alcohol Oxidations from Lab-Scale to Industrial Implementation: Batch or Flow?

Aerobic Alcohol Oxidations from Lab-Scale to Industrial Implementation: Batch or Flow?

This case study examines aerobic alcohol oxidations using nitroxyl radicals like TEMPO and keto-ABNO, highlighting their efficiency and eco-friendliness. Continuous flow reactors excel in safety and scalability, achieving 96% yield for primary alcohols in under 5 minutes. However, batch reactors prove advantageous for secondary alcohols due to catalyst stability, showcasing the complementary benefits of both approaches.

Case Study: Viedma ripening for Naproxen

Case Study: Viedma ripening for Naproxen

Obtaining enantiopure compounds from a racemic mixture without any additional chiral reagent. Not a dream, but a new reality. By using racemizing conditions and specific crystallization behavior the solid phase of a racemic mixture can be fully converted into the enantiomerically.

Newsroom

Latest News

Stay updated on our latest innovations, updates, and insights through the InnoSyn newsroom.

Webinar: Cryogenic flow chemistry made easy
17 Dec, 2024 Latest News

17 march 2020 - The Skid concept for pilot plant scale...

InnoSyn at CPHI and BioEurope 2024
25 Nov, 2024 Latest News

InnoSyn recently participated in two of the year’s biggest industry events, CPHI and BioEurope, and we’re thrilled with the results. Both events provided excellent opportunities to meet new contacts, explore potential partnerships, and generate valuable leads.

AI Meets Chemistry: InnoSyn and Genzai Create SynSilico for Revolutionary R&D
25 Nov, 2024 Latest News

InnoSyn and Genzai have jointly announced the formation of SynSilico, a venture aimed at transforming research and development in the Life Science, Material Science, and Chemical industries. This partnership merges InnoSyn’s expertise in biochemical synthesis with Genzai’s leadership in artificial intelligence.

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