Abstract:
A process for recycling an electrode material comprising graphene and an electrochemically active material is described. The process comprises a step of adding, in any order, water and a non-miscible solvent to the electrode material, thereby forming a biphasic system comprising an organic phase and an aqueous phase; and a step of separating and filtering the organic phase to recover graphene. The process optionally comprises additional steps of washing, drying, and/or thermally treating. Also described are electrodes including the recycled graphene, as well as the electrochemical cells and their uses.
Abstract:
This application describes a process for the preparation of flexible electrode-separator elements or assemblies, which includes the application of an electrode material on the separator. The electrode material comprises graphene, for instance produced by graphite exfoliation. The electrode-separator elements obtained by the process as well as their use in electrochemical cells are also described.
Abstract:
Described is a method or process for modifying the surface of carbon-coated electrochemically active materials such as complex oxides like olivine-type cathode materials. For instance, the surface of the carbon-coated powder material is modified to increase its hydrophobic characteristics. Also, specific groups may be grafted on the carbon surface of cathode material using the diazonium chemistry, for instance, by the spontaneous grafting of aryl ions generated in situ by the diazotization of an arylamine compound.
Abstract:
There are provided methods and apparatuses for evaluating water pollution. The apparatus comprises at least one light source for exciting or causing activity of at least one type of microorganism or biological material; at least one photodetector for detecting a level of fluorescent light; and a chip disposed between the at least one light source and the detector, the chip comprising at least one microfluidic channel disposed for being exposed to light from the at least one light source and dimensioned for receiving a composition comprising the at least one type of microorganism or biological material and a water sample to be evaluated.
Abstract:
The present disclosure relates to peptide compounds and conjugate compounds, processes, methods and uses thereof for treating cancer. For example, the compounds can comprise compounds of formula
X1X2X3X4X5GVX6AKAGVX7NX8FKSESY (SEQ ID NO: 1)
(I)
(X9)nGVX10AKAGVX11NX12FKSESY (SEQ ID NO: 2)
(II)
YKX13LRRX14APRWDX15PLRDPALRX16X17L (SEQ ID NO: 3)
(III)
YKX18LRR(X19)nPLRDPALRX20X21L (SEQ ID NO: 4)
(IV)
IKLSGGVQAKAGVINMDKSESM (SEQ ID NO: 5)
(V)
IKLSGGVQAKAGVINMFKSESY (SEQ ID NO: 6)
(VI)
IKLSGGVQAKAGVINMFKSESYK (SEQ ID NO: 7)
(VII)
GVQAKAGVINMFKSESY (SEQ ID NO: 8)
(VIII)
GVRAKAGVRNMFKSESY (SEQ ID NO: 9)
(IX)
GVRAKAGVRN(Nle)FKSESY (SEQ ID NO: 10)
(X)
YKSLRRKAPRWDAPLRDPALRQLL (SEQ ID NO: 11)
(XI)
YKSLRRKAPRWDAYLRDPALRQLL (SEQ ID NO: 12)
(XII)
YKSLRRKAPRWDAYLRDPALRPLL (SEQ ID NO: 13)
(XIII)
wherein X1 to X21 and n can have various different values and wherein at least one protecting group and/or at least one labelling agent is optionally connected to said peptide compound at an N- and/or C-terminal end.
Abstract:
The present disclosure relates to peptide compounds and conjugate compounds, processes, methods and uses thereof for treating inflammation. For example, the compounds can comprise compounds; IKLSGGVQAKAGVINMDKSESM, formula (V) as set forth in SEQ ID NO: 5, GVRAKAGVRN(Nle)FKSESY, formula (X) as set forth in SEQ ID NO: 10 and YKSLRRK.APRWDAPLRDPALRQLL, formula (XI) as set forth in SEQ ID NO: 11 wherein at least one protecting group and/or at least one labelling agent is connected to said peptide compound at an N- and/or C-terminal end, for use in inhibiting or decreasing TNF-alpha-induced COX-2 expression in cells expression sortilin.
Abstract:
A process for recycling an electrode material comprising graphene and an electrochemically active material is described. The process comprises a step of adding, in any order, water and a non-miscible solvent to the electrode material, thereby forming a biphasic system comprising an organic phase and an aqueous phase; and a step of separating and filtering the organic phase to recover graphene. The process optionally comprises additional steps of washing, drying, and/or thermally treating. Also described are electrodes including the recycled graphene, as well as the electrochemical cells and their uses.
Abstract:
Ce document décrit un procédé pour la préparation d'éléments ou assemblages électrode-séparateur flexibles, qui inclus l'application d'un matériau d'électrode sur le séparateur. Le matériau d'électrode comprend du graphène, par exemple produit par exfoliation de graphite. Les éléments électrode-séparateur obtenus par le procédé de même que leur utilisation dans des cellules électrochimiques sont aussi décrits.
Abstract:
The present disclosure relates to peptide compounds and conjugate compounds, processes, methods and uses thereof for treating cancer and increasing cellular internalization of said peptide compounds. The peptide compounds are selected from the following group consisting of; GVRAKAGVRNMFKSESY as set forth in SEQ ID NO: 9; GVRAKAGVRN(Nle)FKSESY as set forth in SEQ ID NO: 10; and YKSLRRKAPRWDAPLRDPALRQLL as set forth in SEQ ID NO: 11; and wherein at least one protecting group and/or at least one labelling agent is connected to said peptide compound.
Abstract translation:本公开涉及用于治疗癌症并增加所述肽化合物的细胞内化的肽化合物和缀合物化合物,其工艺,方法和用途。 肽化合物选自下组: 如SEQ ID NO:9所示的GVRAKAGVRNMFKSESY; 如SEQ ID NO:10所示的GVRAKAGVRN(Nle)FKSESY; 和如SEQ ID NO:11所示的YKSLRRKAPRWDAPLRDPALRQLL; 并且其中至少一个保护基团和/或至少一个标记试剂与所述肽化合物连接。 p>
Abstract:
There are provided methods and apparatuses for evaluating water pollution. The apparatus comprises at least one light source for exciting or causing activity of at least one type of microorganism or biological material; at least one photodetector for detecting a level of fluorescent light; and a chip disposed between the at least one light source and the detector, the chip comprising at least one microfluidic channel disposed for being exposed to light from the at least one light source and dimensioned for receiving a composition comprising the at least one type of microorganism or biological material and a water sample to be evaluated.