Vernices e téxtiles con nanorrecubrimientos funcionais

A POLYMER NANOCOMPOSITE FOR RADIATIVE COOLING

Resumen de: WO2024257121A1

The present disclosure provides a nanocomposite comprising: a. a plurality of nanoparticles having band gap in a range of 5 to 8 eV; and b. an emissive polymer, wherein the nanoparticle and the polymer are in a weight ratio in a range of 1:1 to 6:1; and the plurality of nanoparticles are dispersed in the emissive polymer. The present disclosure also provides a process of preparing the nanocomposite. The present disclosure further provides a coating composition and an article thereof.

MANUFACTURING METHOD FOR ANTI-FUGGING BIODEGRADABLE CLEANER EMITTING FLAVOR WITH NON-SLIP SURFACE

Resumen de: KR20240169970A

본 발명은 논슬립 표면을 갖는 향기 발산형의 김서림방지 생분해 크리너로서, 기존 비분해성 원단에 의한 폐기물 및 환경오염 문제에 대응하고자 100% 분해되는 생분해성 원단을 사용하고, 김서림방지층 이면에 논슬립 층을 갖춰 사용상의 이질감을 줄임과 함께 향기캡슐 내 방향성 입자에 의해 사용자의 심리적 안정감 및 스트레스 해소, 피로회복 등 일반적인 김서림 방지제에 부가적인 기능성을 부여한 다기능성 생분해 크리너의 제조방법을 제공한다. 본 발명은, 생분해 향기 캡슐이 담지된 다층형 크리너로서, 생분해 소재를 이용하여 부직포 원단 또는 부직포와 직물이 합지된 복합 원단으로 구성된 제1생분해 원단 및 제2생분해 원단을 제조하는 생분해 원단 제조 단계; 상기 제1생분해 원단 상단에 미끄럼방지 가공을 통해 막형성 고분자를 형성하는 논슬립 코팅층을 제조하는 제1기능성 원단 제조 단계; 상기 제2생분해 원단 상단에 나노섬유 부직포를 적층하여 향기 원단을 제조하는 향기 원단 제조 단계; 상기 제2생분해 원단 하단을 김서림방지제로 코팅하여 김서림방지 코팅층을 제조하는 제2기능성 원단 제조 단계; 상기 제1기능성 원단과 제2기능성 원단을 합지하는 다층형 크리너 제조 단계;를 포함하는 것을 특징으로

涼感体及びその製造方法

Resumen de: JP2024165781A

【課題】使用時のベタつきが抑制された涼感体を提供する。【解決手段】本開示に係る涼感体の製造方法は、涼感対象物に接触させて使用される涼感体の製造方法であって、第１混合物準備工程と、吸熱部形成工程とを含む。第１混合物準備工程では、涼感対象物の温度よりも低い温度域において固相から液相に相変化する複数の吸熱材と、複数の吸熱材を保持するための樹脂と、ガラスビーズ又は加熱によって発泡する発泡材とが混合された第１混合物が準備される。吸熱部形成工程では、第１混合物を基材の表面に配置することにより、第１混合物を有する吸熱部が基材の表面上に形成される。【選択図】図１

COMPONENT, VEHICLE AND METHOD

Resumen de: WO2024235985A1

The invention relates to a component (13) with a carrier material (14) and a coating (17) applied to the carrier material (14) for influencing a heat signature (12) of the component (13), wherein the coating (17) comprises an adhesion promoter (18), wherein the coating (17) comprises nanotubes (19, 20, 22), wherein a first set of nanotubes (19) is embedded partially in the adhesion promoter (18), wherein a second set of nanotubes (22) is arranged entirely outside the adhesion promoter (18), and wherein nanotubes (22) of the second set of nanotubes (22) are connected to nanotubes (19) of the first set of nanotubes (19, 20).

低水分組成物

Resumen de: MX2024006598A

A low-water composition comprising a solid dissolvable composition domain having a crystallizing agent and a PEGC domain.

高性能フレグランスを含む水性ファブリックコンディショナー組成物

Resumen de: MX2024006604A

This disclosure relates to an aqueous fabric conditioner composition containing: (i) a fragrance component present in an amount of ( 1 wt% relative to the total weight of the composition, wherein the fragrance component comprises at least one, at least two, at least three, at least four, at least five, at least six, at least seven, at least eight, at least nine or at least ten High Performance fragrance ingredients selected from the group consisting of Ultra High-Impact fragrance ingredients and High-Impact fragrance ingredients; and (ii) a fabric conditioner active. The composition exhibits parity and/ or improved visco-stability and/or perceived intensity, perceived longevity and/or perceived fidelity of a fragrance profile, particularly fresh and clean characters. This disclosure also relates to use of the aqueous fabric conditioner composition for imparting or enhancing the perception of the fragrance profile on fabrics.

低水分組成物

Resumen de: MX2024006596A

A low-water composition comprising a solid dissolvable composition domain having a crystallizing agent and a PEGC domain.

低水分組成物

Resumen de: MX2024006600A

A low-water composition comprising a solid dissolvable composition domain having a crystallizing agent and a PEGC domain.

A NONCOVALENT HYBRID COMPRISING CARBON NANOTUBES (CNT) AND AROMATIC COMPOUNDS AND USES THEREOF

Resumen de: US2024367979A1

Provided herein noncovalent hybrids comprising carbon nanotubes (CNTs) and aromatic compounds, composites based on them, process of preparation and uses thereof; wherein the hybrids possess superior mechanical and electrical properties.

MULTIPURPOSE BIODEGRADABLE CLEANER, AND METHOD FOR PRODUCING SAME

Resumen de: WO2024228484A2

The present invention relates to a multipurpose biodegradable cleaner and a method for producing same. The multipurpose biodegradable cleaner uses a 100% biodegradable fabric to address waste and environmental pollution issues caused by existing non-degradable fabrics, and has a non-slip layer on the rear surface of an anti-fog layer, thus providing less discomfort during use and providing functionality for touch-up makeup, and can therefore contribute to user convenience and portability. In addition, the present invention contains hyaluronic acid, ceramide, flower acid, and a natural extract and can thus provide a high degree of moisturization and keratolytic, anti-inflammatory, and antibacterial effects and the like, and can help provide the user with psychological stability, stress relief, fatigue recovery, and the like by means of aromatic particles in a fragrance capsule.

COMPOSITION FOR ELECTROCHEMICAL DEVICE, ELECTRODE AND SECONDARY BATTERY

Resumen de: US2024372103A1

Provided is a composition for an electrochemical device, containing a single-walled carbon nanotube, a binder, and a solvent, wherein the binder comprises a fluorine-containing copolymer comprising a repeating unit (a) based on vinylidene fluoride, and at least one repeating unit (b) selected from the group consisting of a repeating unit (b1) and a repeating unit (b2).

Air Purifying and Sanitising Nano Additive Powder, APSNAP

有益剤含有送達粒子

Resumen de: JP2023081918A

To provide benefit agent-containing delivery particles that can be supplied as slurries, compositions comprising the particles, and processes for making and using the aforementioned particles and compositions.SOLUTION: There is provided a composition comprising a consumer product adjunct material and benefit agent-containing delivery particles. The benefit agent-containing delivery particles comprise a core and a shell encapsulating the core and a) comprises 0.1% to 1.1% of polyvinyl alcohol having specific properties, based on the total benefit agent-containing delivery particle core weight, and b) the core comprises greater than 10% of a partitioning modifier based on total core weight, in which the partitioning modifier comprises a material selected from the group consisting of propan-2-yl tetradecanoate, a vegetable oil, a modified vegetable oil and mixtures thereof.EFFECT: A slurry is stable and when used in a composition, such as a cleaning composition, the particles in the slurry enhance the delivery efficiency of the benefit agent, thereby reducing the amount of the benefit agent to be used.SELECTED DRAWING: None

組成物

Resumen de: US2024287421A1

The present invention relates to the field of laundry care, more particularly to a liquid laundry care composition, to a method for obtaining a liquid laundry care composition, and to the use of liquid laundry care compositions to provide an enhanced fragrance perception on fabrics.

難燃性繊維シート

Resumen de: JP2024152454A

【課題】電化製品の内部空間に存在する電子部品や金属部品同士などの間隙への追従性に富み押し込み易いことで、当該間隙へ充填し易い難燃性繊維シートの提供を第一の課題とする。【解決手段】「繊維シートに、難燃剤をシラン系樹脂で被覆してなる難燃剤カプセルとバインダとを含んだ難燃性バインダが付与されている、難燃性繊維シート」において、難燃性繊維シートの質量に占める難燃性バインダの質量の百分率を調整することで、電化製品の内部空間に存在する電子部品や金属部品同士の間隙へ充填し易い、難燃性繊維シートを提供できることを見出した。具体的には、当該百分率が１．０質量％より多いことによって、当該間隙へ富み押し込み易い難燃性繊維シートを提供できること、また、当該百分率が２７．０質量％未満であることによって、当該間隙への追従性に富む難燃性繊維シートを提供できることを見出した。【選択図】 図1

COMPOSITION AND METHOD FOR A MICROTEXTURE HYDROPHOBIC OR SUPERHYDROPHOBIC COATING

Resumen de: US2024342752A1

A composition and method for a microtexture hydrophobic or superhydrophobic coating. The microtexture coating includes a coating layer disposed on a substrate with hydrophobic or superhydrophobic particles dispersed on top of or partially embedded in the coating layer to form an outer layer. The outer layer exhibits water repellant properties. Use of the microtexture coating permits large scale, durable hydrophobic or superhydrophobic coating applications. The microtexture coating is a useful for application on wind turbines, airplanes, solar panels, windows, or cooling systems.

SOLID COMPOSITION

Resumen de: MX2024006641A

The present invention provides a solid composition consisting of a solid, water-soluble, biodegradable carrier and a microcapsule composition comprising a polymer encapsulating a benefit agent, wherein the benefit agent is encapsulated in core-shell microcapsules comprising a core and a shell surrounding the core. The invention also provides a consumer product comprising the solid composition.

USE OF A STRUCTURAL POLYPEPTIDE FOR TREATING OR FINISHING TEXTILES

Resumen de: WO2023104752A1

The present invention relates to the use of a structural polypeptide for treating or finishing textiles. Specifically, said treating or finishing includes improving or maintaining the properties of textiles such as their optics or introducing properties to textiles. Said treating or finishing also includes restoring textiles.

冷感性繊維製品及びその製造方法

Resumen de: JP2024134272A

【課題】繊維製品の洗濯等によっても、定着性が低下せず、冷感効果を維持することにある。【解決手段】本発明は、潜熱蓄冷マイクロカプセルを含む染料を、複数色の柄模様を示すように、合成繊維又は天然繊維からなる生地の裏面の全部又は一部に、染色プリントする色柄を有する生地を含むことを特徴とする冷感性繊維製品である。【選択図】図１

SURFACE MODIFICATION OF STAINLESS STEELS

Resumen de: MX2019004613A

A process involves the continuous surface treatment of stainless steel coils with aqueous suspensions of rare earth oxide nano or micro particles or aqueous rare earth nitrate solutions of nano or micro particles. The surface treatment can be applied by roll coating, spraying or other conventional application techniques. The treated material in coil form is then heated in an annealing box using an open coil process whereby a wire is placed between coil laps to promote uniform atmosphere exposure. The atmosphere can be reducing or oxidizing and the times can vary from 1 hr to 100 hr. The atmosphere can also be wet (high dew point) or dry (low dew point). The surface treatment promotes a more uniform color to the subsequently developed oxide formed during anneal-type heat treatment. It also improves corrosion resistance of the processed stainless steel material. Materials treated in this manner are suitable for a variety of applications in the building systems, automotive and appliance markets.

CHEMICAL-RESISTANT ANTI-CORROSION PAINT COMPOSITION

Resumen de: WO2024189649A1

A coating composition for the protection of metallic and non-metallic substances including metal structures, civil structures, battery rooms, acid manufacturing units, and chemical manufacturing units against corrosion. The disclosed anti-corrosion coating comprises (a) synthetic resin (b) extenders (c) additive and (d) pigments. This anti-corrosion coating is a self-primer paint and is chemical resistant in nature. The Anti-corrosion paint composition comprises hybrid resin in an amount of 33.47 % w/w of the composition, Rutile in an amount of 4.50 % w/w of the composition, Zinc Phosphate in an amount of 4.50 % w/w of the composition, Barite in an amount of 20.27 % w/w of the composition, Xylene in an amount of 30.03% w/w of the composition, Disperlon in an amount of 0.68 % w/w of the composition, Fast Blue in an amount of 0.01 % w/w of the composition, Red Oxide in an amount of 0.03 % w/w of the composition, Black in an amount of 0.03 % w/w of the composition, Neosphere in an amount of 0.34 % w/w of the composition, Chlorinated Paraffin Wax is an amount of 2.03 % w/w of the composition, Butanol in an amount of 3.38 % w/w of the composition, Calcium in an amount of 0. 19 % w/w of the composition, Cobalt in an amount of 0.19 % of the composition, Manganese in an amount of 0.19 % w/w of the composition, Zirconium in an amount of 0.06 % of the composition, CNT Graphene in an amount of 0.02 % w/w of the composition, Methyl Ethyl Oxalate (ASA) in an amount of 0.06 % w/w of the co

METHODS OF FORMING COLLOIDAL COPPER NANOPARTICLE-BASED, AIR-STABLE, CONDUCTIVE, MULTISCALE FEATURES

Nº publicación: WO2024187133A2 12/09/2024

Solicitante:

UNIV PENNSYLVANIA [US]\n
THE TRUSTEES OF THE UNIVERSITY OF PENNSYLVANIA

Resumen de: WO2024187133A2

A method, comprising: with a population of metallic nanoparticles comprising a material and (a) having a labile ligand associated thereon and (b) being disposed on a substrate, and (i) exchanging the labile ligand for a compact ligand that associates with the population of metallic nanoparticles, (ii) removing the labile ligand so as to leave the metallic nanoparticles essentially free of ligand, or both (i) and (ii), the metallic nanoparticles then associating so as to form a conductive film. A conductive film, comprising a plurality of metallic nanoparticles having a compact ligand associated therewith, the film having a resistivity of less than about 50 times the resistivity of the bulk material of the metallic nanoparticles. A composition, comprising: a population of metallic nanoparticles (i) having a labile ligand associated thereon and (ii) being disposed on a substrate; and a compact ligand that preferentially associates with the population of metallic nanoparticles.