Freeport, NY, United States
Freeport, NY, United States

BASF SE is the largest chemical producer in the world and is headquartered in Ludwigshafen, Germany. BASF originally stood for Badische Anilin- und Soda-Fabrik . Today, the four letters are a registered trademark and the company is listed on the Frankfurt Stock Exchange, London Stock Exchange, and Zurich Stock Exchange. The company delisted its ADR from the New York Stock Exchange in September 2007.The BASF Group comprises subsidiaries and joint ventures in more than 80 countries and operates six integrated production sites and 390 other production sites in Europe, Asia, Australia, Americas and Africa. Its headquarters is located in Ludwigshafen am Rhein . BASF has customers in over 200 countries and supplies products to a wide variety of industries. Despite its size and global presence BASF has received relatively little public attention since abandoning its consumer product lines in the 1990s.At the end of 2013, the company employed more than 112,000 people, with over 52,500 in Germany alone. In 2013, BASF posted sales of €73.97 billion and income from operations before special items of about €7.2 billion. The company is currently expanding its international activities with a particular focus on Asia. Between 1990 and 2005, the company invested €5.6 billion in Asia, for example in sites near Nanjing and Shanghai, China and Mangalore in India. Wikipedia.

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An automotive refinish coating mixer system includes (a) one or both of (i) at least one pellet of a compressed mixture of metal pigment and a powdered, water-soluble polymer and (ii) at least one pre -measured portion of metal flake pigment sealed in water- soluble polymer film; (b) a plurality o f aqueous pigmented and unpigmented bases; and (c) a reducer base.


Patent
Basf | Date: 2017-03-15

The invention relates to a composition comprising A) microcapsules comprising at least one fat-soluble active substance selected from a vitamin K compound or a provitamin or a prodrug of a vitamin K compound embedded in a matrix comprising a hydrocolloid and optionally one or more other matrix components, and B) at least one dietary mineral; as well as uses and products comprising such compositions.


A transgenic plant transformed by a Serine Hydroxymethyltransferase-Like Stress-Related Polypeptide (SHSRP) coding nucleic acid, wherein expression of the nucleic acid sequence in the plant results in the plants increased root growth and/or increased tolerance to environmental stress as compared to a wild type variety of the plant. Also provided are agricultural products, including seeds, produced by the transgenic plants. Also provided are isolated SHSRPs, and isolated nucleic acids encoding SHSRPs, and vectors and host cells containing the latter.


The present invention relates to a process for the preparation of triazole compounds I


The present invention relates to a molding, comprising a microporous aluminum-free zeolitic material of structure type MWW containing titanium and zinc (ZnTiMWW), said molding preferably comprising a micropowder comprising, based on the weight of the micropowder, at least 95 weight-% of a microporous aluminum-free zeolitic material of structure type MWW containing titanium and zinc (ZnTiMWW), the molding preferably further comprising at least one binder, preferably a silica binder.


Aqueous solution containing(A) in the range of from 55 to 75 % by weight of a mixture of tripotassium salts of the L- and D-enantiomers of methyl glycine diacetic acid (MGDA), said mixture containing predominantly the respective L-enantiomer with an enantiomeric excess (ee) in the range of from 5 to 98 %, and(B) in the range of from 0.01 to 4.0 % by weight, referring to (A), potassium hydroxide or potassium (hydrogen)carbonate or of a combination therefrom.


The invention relates to a method of preparing an agrochemical composition comprising the steps of preparing a premix by contacting a solid water-insoluble pesticide and a hydrophobin and preparing a raw suspension by milling the premix; an agrochemical composition which is obtainable by said method; a use and method of application of hydrophobin for reducing the toxicity of a solid water-insoluble pesticide; a method of controlling phytopathogenic fungi and/or undesired plant growth and/or undesired insect or mite attack and/or for regulating the growth of plants; and seed containing said suspension.


The present invention relates to novel polymer compositions, to a process for their manufacturing, to the use of said polymer compositions as dispersants and to liquid compositions containing solid fine particles, such as organic or inorganic pigments and fillers, and the novel polymer compositions as dispersants. The polymer compositions are obtainable by reacting: a) a polymer P1 having at least one functional group of the formula (I), and a polymer backbone B where # indicates the point of attachment to the terminus and/or to the polymer backbone B of the polymer P1; k is 0, 1, 2, 3 or 4, in particular 0 or 1, especially 0; m is 0, 1, 2, 3, 4, 5, 6, 7, 8 or 9, in particular 0 or 1, especially 0; A is a chemical bond or a divalent moiety selected from the group consisting of C1-C6 alkylene, -O-(C2-C6 alkylene), -C(=O)-O-(C2-C6 alkylene), -NR3-(C2-C6 alkylene) and C(=0)-NR3-(C2-C6 alkylene), where the C2-C6 alkylene part is attached to Q; Q is a divalent moiety selected from the group consisting of -0-, -NH- and -S-R1, R2, R3 are as defined in the claims; with a polymer P2 which is a polyolefine succinic anhydride, in particular a polyisobutene succinic anhydride.


Grant
Agency: European Commission | Branch: H2020 | Program: SGA-RIA | Phase: FETFLAGSHIP | Award Amount: 89.00M | Year: 2016

This project is the second in the series of EC-financed parts of the Graphene Flagship. The Graphene Flagship is a 10 year research and innovation endeavour with a total project cost of 1,000,000,000 euros, funded jointly by the European Commission and member states and associated countries. The first part of the Flagship was a 30-month Collaborative Project, Coordination and Support Action (CP-CSA) under the 7th framework program (2013-2016), while this and the following parts are implemented as Core Projects under the Horizon 2020 framework. The mission of the Graphene Flagship is to take graphene and related layered materials from a state of raw potential to a point where they can revolutionise multiple industries. This will bring a new dimension to future technology a faster, thinner, stronger, flexible, and broadband revolution. Our program will put Europe firmly at the heart of the process, with a manifold return on the EU investment, both in terms of technological innovation and economic growth. To realise this vision, we have brought together a larger European consortium with about 150 partners in 23 countries. The partners represent academia, research institutes and industries, which work closely together in 15 technical work packages and five supporting work packages covering the entire value chain from materials to components and systems. As time progresses, the centre of gravity of the Flagship moves towards applications, which is reflected in the increasing importance of the higher - system - levels of the value chain. In this first core project the main focus is on components and initial system level tasks. The first core project is divided into 4 divisions, which in turn comprise 3 to 5 work packages on related topics. A fifth, external division acts as a link to the parts of the Flagship that are funded by the member states and associated countries, or by other funding sources. This creates a collaborative framework for the entire Flagship.


Grant
Agency: European Commission | Branch: H2020 | Program: ECSEL-IA | Phase: ECSEL-18-2015 | Award Amount: 82.27M | Year: 2016

The goal of EnSO is to develop and consolidate a unique European ecosystem in the field of autonomous micro energy sources (AMES) supporting Electronic European industry to develop innovative products, in particular in IoT markets. In summary, EnSO multi-KET objectives are: Objective 1: demonstrate the competitiveness of EnSO energy solutions of the targeted Smart Society, Smart Health, and Smart Energy key applications Objective 2: disseminate EnSO energy solutions to foster the take-up of emerging markets. Objective 3: develop high reliability assembly technologies of shapeable micro batteries, energy harvester and power management building blocks Objective 4: Develop and demonstrate high density, low profile, shapeable, long life time, rechargeable micro battery product family. Objective 5: develop customizable smart recharge and energy harvesting enabling technologies for Autonomous Micro Energy Source AMES. Objective 6: demonstrate EnSO Pilot Line capability and investigate and assess the upscale of AMES manufacturing for competitive very high volume production. EnSO will bring to market innovative energy solutions inducing definitive differentiation to the electronic smart systems. Generic building block technologies will be customizable. EnSO manufacturing challenges will develop high throughput processes. The ENSo ecosystem will involve all the value chain from key materials and tools to many demonstrators in different fields of application. EnSO work scope addresses the market replication, demonstration and technological introduction activities of ECSEL Innovation Action work program. EnSO relates to several of the Strategic Thrusts of ECSEL MASP. EnSO innovations in terms of advanced materials, advanced equipment and multi-physics co-design of heterogeneous smart systems will contribute to the Semiconductor Process, Equipment and Materials thrust. The AMES will be a key enabling technology of Smart Energy key applications.

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