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特徴

Implementation track record and examples

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Datachemical LAB Case Study Interview

Professor Tatsuya Oshima

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Professor, Chemistry and Life Science Program, Faculty of Engineering, University of Miyazaki

Shogo Yoshimaru

Data Chemical Co., Ltd. Representative Director and CEO

Datachemical LAB has been adopted by a wide range of companies and universities, regardless of product field.
Number of companies using the system: 65
Includes 16 universities and research institutes

Product area of the hiring company

Plastic products

Non-ferrous metals

Electronic components and devices

Petroleum products

Metal products

Pharmaceuticals

Rubber products

Machine products

Space field

Case studies
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Examples of papers using Datachemical LAB

Data-guided rational design of additives for halogenation of highly fluorinated naphthalenes: integrating fluorine chemistry and machine learning

Naoya Ohtsuka, Muhammad Zhafran Mohd Aris, Toshiyasu Suzuki and Norie Momiyama

The Wittig reaction of perfluoromonohalobenzaldehydes was methodically studied to synthesize 2,3,5,6-tetrafluoro-4-halostyrene (TFXSs) as functional monomers bearing halogen-bond donor sites. The reaction proceeded efficiently in tetrahydrofuran using 1,1,3,3-tetramethylguanidine as an organic base. Correlation analysis quantitatively identified three key factors required to obtain TFXSs in reasonable yields. The present approach not only contributes to the study of halogen-bond-based functional molecules, but also presents digitalization as a potential strategy in small-molecule synthesis.
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Data-Integrated Elucidation of Structure–Activity Relationships toward the Rational Design of Perfluoroiodoarene-Based Halogen-Bond Donor Catalysts

Masayuki Kato, Fumio Nakashima, Naoya Ohtsuka, Yukina Nishioka, Atsuto Izumiseki, Takeshi Fujinami. Shunya Oishi, Toshiyasu Suzuki, and Norie Momiyama

The Wittig reaction of perfluoromonohalobenzaldehydes was methodically studied to synthesize 2,3,5,6-tetrafluoro-4-halostyrene (TFXSs) as functional monomers bearing halogen-bond donor sites. The reaction proceeded efficiently in tetrahydrofuran using 1,1,3,3-tetramethylguanidine as an organic base. Correlation analysis quantitatively identified three key factors required to obtain TFXSs in reasonable yields. The present approach not only contributes to the study of halogen-bond-based functional molecules, but also presents digitalization as a potential strategy in small-molecule synthesis.
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Machine Learning Prediction of Au(III) Extractability of Various Organic Solvents Based on Ion Solvation in Hydrochloric Acid Media

​Tatsuya Oshima, Yuhi Iwakiri, Hiroki Yokota, and Asuka Inada

Selective recovery of gold from electrical and electronic equipment has attracted increasing attention. Au(III), which is present as tetrachloroauric acid (HAuCl4) in hydrochloric acid media, can be extracted by using various organic solvents, such as ketones and ethers. However, the decisive factors of the solvent for predicting Au(III) extractability have not been confirmed. In the present study, the relationship between the extraction percentage of Au(III) and the properties of the solvent was investigated for 79 types of solvents. Based on the relationships between the Hansen solubility parameters of the solvent and the extraction percentage of Au(III) in 5.0 M HCl with a threshold of 80%, the extractability was classified with 93.7% accuracy...
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Synthesis of Halogen-Bond-Donor-Site-Introduced Functional Monomers through Wittig Reaction of Perfluorohalogenated Benzaldehydes: Toward Digitalization as Reliable Strategy in Small-Molecule Synthesis

Tatsuaki Hori, Shuya Kakinuma, Naoya Ohtsuka, Takeshi Fujinami, Toshiyasu Suzuki, and Norie Momiyama

The Wittig reaction of perfluoromonohalobenzaldehydes was methodically studied to synthesize 2,3,5,6-tetrafluoro-4-halostyrene (TFXSs) as functional monomers bearing halogen-bond donor sites. The reaction proceeded efficiently in tetrahydrofuran using 1,1,3,3-tetramethylguanidine as an organic base. Correlation analysis quantitatively identified three key factors required to obtain TFXSs in reasonable yields. The present approach not only contributes to the study of halogen-bond-based functional molecules, but also presents digitalization as a potential strategy in small-molecule synthesis.
read more

Company Overview

Company Name: Datachemical Inc.

Address: Kuwano Building 2F, 6-23-4 Jingumae, Shibuya-ku, Tokyo 150-0001, Japan

Phone: +81-3-6778-2045  CEO: Shogo Yoshimaru

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Copyright ©Datachemical, Inc. All Rights Reserved.

Copyright ©Datachemical, Inc. All Rights Reserved.

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