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US7729039
1. An electro-optic display comprising, in this order:

a light-transmissive electrically-conductive layer;

a layer of electro-optic material covering part of the electrically-conductive layer, the layer of electro-optic material not covering a tab portion of the electrically-conductive layer;

an adhesive layer, the adhesive layer not covering the tab portion of the electrically-conductive layer;

a backplane comprising at least one pixel electrode disposed adjacent the layer of electro-optic material, and a contact pad in electrical contact with the tab portion of the electrically-conductive layer.

 

US20200324287

In a methods of manufacture embodiment, what is embraced is a method for synthesizing a release-monitor bead, wherein the release-monitor bead comprises a bead, a quencher, a fluorophore, and a photocleavable linker that couples the fluorophore to the bead, the method comprising, in this order, (i) Providing a resin, (ii) Coupling a lysine linker to the resin, wherein the reagent containing the lysine linker is L-Fmoc-Lys(4-methyltrityl)-OH, (iii) Removing the Fmoc protecting group, (iv) Coupling the quencher using a reagent that is quencher-N-hydroxysuccinimide (quencher-NETS) as the source of quencher, (v) Removing the 4-methyltrityl protecting group using a reagent comprising trifluoroacetic acid, (vi) Coupling a photocleavable linker to the epsilon amino group of lysine, wherein the photocleavable linker is provided by a reagent that is, Fmoc-photocleavable linker-OH, (vii) Coupling the fluorophore. Also provided is the above embodiment, but without regard to the ordering of steps. In other methods embodiments, what is provided is the above method wherein the fluorophore is TAMRA and wherein the quencher is QSY7.

 

US7993463

1. A method of producing a fermentation product, comprising in this order:

a) leaching a lignocellulosic feedstock comprising greater than about 20% (w/w) cellulose to reduce the level of compounds in said feedstock that interfere with a subsequent treatment with acid, said leaching comprising contacting said feedstock with at least one aqueous solution for a period greater than about 2 minutes, said aqueous solution having a pH of between about 6 and about 9, to produce a leached feedstock and a leachate;

b) removing said leachate from said leached feedstock;

c) acidifying said leached feedstock with acid to a pH between about 0.5 and about 3 to produce an acidified feedstock;

d) pretreating said acidified feedstock subsequent to step (c) under conditions to disrupt fiber structure to increase the accessibility of the leached feedstock to being hydrolyzed, to produce a composition comprising xylose and a pretreated feedstock;

e) treating said composition comprising xylose and pretreated feedstock with cellulase under conditions which hydrolyse cellulose in said pretreated feedstock to glucose, producing a sugar solution comprising xylose and glucose; and

f) treating said sugar solution with a microorganism under conditions which permit fermentation of said xylose and/or said glucose to the fermentation product.

 

EP2968668

Other embodiments provide for a method of making the biodegradable intraocular implants of the invention, the method comprising in this order a) blending the therapeutic agent with a biodegradable polymer or two or more biodegradable polymers and one or more excipients, if any, to form a mixture, b) extruding the mixture to form a filament, and c) cutting the filament to lengths suitable for placement in an eye of a patient suffering from elevated intraocular, thereby forming the intraocular implants. In particular embodiments the filament is cut to lengths suitable for placement in the anterior chamber of an eye. The therapeutic agent comprises Compound 1 as defined herein. In some instances the therapeutic agent used for blending with the polymer(s) (step a) may be in the form of a solid. The mixture may be extruded at a temperature of from 60°C to 150°C.

 

US7243276

1. A method, comprising in the order recited:

(a) placing a DDR DRAM having a test mode and an operational mode in test mode, said DDR RAM comprising an array of storage cells arranged in rows and columns, storage cells each row addressable by a respective wordline of a set of wordlines and each storage cells in each column addressable by a respective bitline of a set of bitlines;

(b) issuing a bank activate command on an occurrence of a rising edge of a first clock signal of a pair of adjacent clock signals of a test clock to select and bring up a wordline selected from said set of wordlines for write of said wordline selected for write;

(c) issuing a write with auto-precharge command on an occurrence of a rising edge of a second clock signal of said pair of adjacent clock signals to write a test pattern to storage cells corresponding to said wordline selected for write;

(d) repeating steps (b) and (c) until all wordlines of said set of wordlines have been selected and written;

(e) issuing a bank activate command on an occurrence of a rising edge of a first clock signal of a subsequent pair of adjacent clock signals to select and bring up a wordline selected from said set of wordlines for read of said wordline selected for read;

(f) issuing a read with auto-precharge command on an occurrence of a rising edge of a second clock signal of said subsequent pair of adjacent clock signals to read the stored test pattern from storage cells corresponding to said wordline selected for read; and

(g) repeating steps (e) and (f) until all wordlines of said set of wordlines have been selected and read.

 

WO2018200760

The micro -perforated glass or glass-ceramics laminate of claim 1 , further comprising, in order:

 

the first substrate;
【請求項２】
  前記第１の基板と、

 

the first polymer interlayer;
前記第１のポリマー中間層と、

 

the second substrate;
前記第２の基板と、

 

a second polymer interlayer; and
第２のポリマー中間層と、

 

a third substrate laminated to the second substrate by the second polymer interlayer, wherein the third substrate is selected from glass and glass-ceramics.
前記第２の基板に前記第２のポリマー中間層によって積層された第３の基板であって、ガラスおよびガラスセラミックから選択されたものである第３の基板と

をこの順で更に含む、請求項１に記載の微細穿孔ガラスまたはガラスセラミック積層体。

 

WO2017185224

A process for the production of a composition according to any one of claims 1 to 11, comprising in this order at least the following steps:
【請求項１２】
  少なくとも以下の工程：

 

(a) reacting a basic compound with an aqueous solution comprising at least a zirconium chloride salt, a cerium salt and optionally at least one rare earth salt, other than cerium salt and lanthanum salt, said aqueous solution containing sulphate anion (SO₄^2-) , to form a hydroxide precipitate；
（ａ）塩基性化合物を、少なくともジルコニウム塩化物塩と、セリウム塩と、任意選択的にセリウム塩及びランタン塩以外の少なくとも１種の希土類塩とを含む水溶液であって、硫酸アニオン（ＳＯ_４^２－）を含有する水溶液と反応させて、水酸化物の析出物を形成する工程、

 

(b) separating off the precipitate from the liquid medium；
（ｂ）前記析出物を液体媒体から分離する工程、

 

(c) heating the precipitate obtained in step (b) in an aqueous medium and optionally in presence of lanthanum salt with a basic compound；
（ｃ）工程（ｂ）で得られた前記析出物を水性媒体中で且つ任意選択的に塩基性化合物を伴うランタン塩の存在下で加熱する工程、

 

(d) optionally adding lanthanum salt, optionally with a basic compound；
（ｄ）任意選択的に塩基性化合物と共に、任意選択的にランタン塩を添加する工程、

 

(e) adding an organic texturing agent；
（ｅ）有機テクスチャリング剤を添加する工程、

 

(f) separating off the precipitate from the liquid medium； and
（ｆ）前記析出物を前記液体媒体から分離する工程、及び

 

(g) calcining the precipitate.
（ｇ）前記析出物を焼成する工程

をこの順で含む、請求項１～１１のいずれか一項に記載の組成物を製造する方法。

 

WO2019084523

15. An article prepared according to the method of claim 1 , wherein the article comprises the following in sequence:
【請求項１５】
  請求項１に記載の方法により調製された物品であって、

 

the polymeric film or laminate comprising the polymeric film outwardly exposed on the article;
 前記物品において外側に露出した前記高分子フィルムまたは前記高分子フィルムを含むラミネートと、

the second solidified interlayer; and
前記第２の固化中間層と、

 

the underlying surface of the article.
下地となる前記物品の前記表面と、

がこの順に配設される物品。