An electrode for a battery cell, including an active material which contains silicon and which contains a first polymer which is ionically conductive. The active material contains in this case a copolymer, which includes the first polymer and a second polymer, the second polymer being electrically conductive. The A battery cell which includes at least one electrode is also described.

An electrode for a battery cell, including an active material which contains silicon and which contains a first polymer which is ionically conductive. The active material contains in this case a copolymer, which includes the first polymer and a second polymer, the second polymer being electrically conductive. The A battery cell which includes at least one electrode is also described.

A method of forming a compound having the formula:

##STR00001##

includes the reaction:

##STR00002##

n the presence of a base comprising teat-butyl lithium, lithium diisopropylamide, sodium hydroxide, potassium hydroxide, lithium hydroxide, a potassium alkoxide or a sodium alkoxide to achieve a yield of at least 90%, wherein X is a halo atom selected from the group consisting of Cl, Br and I.

A method of forming a compound having the formula:

##STR00001##

includes the reaction:

##STR00002##

n the presence of a base comprising teat-butyl lithium, lithium diisopropylamide, sodium hydroxide, potassium hydroxide, lithium hydroxide, a potassium alkoxide or a sodium alkoxide to achieve a yield of at least 90%, wherein X is a halo atom selected from the group consisting of Cl, Br and I.

There is provided a method for introducing a temperature-sensitive probe comprising a copolymer, which comprises a thermoresponsive unit and a fluorescent unit, into a cell, and the method using the copolymer further comprising a cationic unit as the temperature-sensitive probe, and the method comprising the step of mixing the copolymer with the cell in a solvent. The copolymer can be preferably used as a fluorescence temperature sensor which measures intracellular temperature since the copolymer has a cationic group and thus enters into a cell without using a special method.

There is provided a method for introducing a temperature-sensitive probe comprising a copolymer, which comprises a thermoresponsive unit and a fluorescent unit, into a cell, and the method using the copolymer further comprising a cationic unit as the temperature-sensitive probe, and the method comprising the step of mixing the copolymer with the cell in a solvent. The copolymer can be preferably used as a fluorescence temperature sensor which measures intracellular temperature since the copolymer has a cationic group and thus enters into a cell without using a special method.

An electrochromic polymer is comprised of a repeat unit comprising one or more meta-conjugated linkers (MCLs) and one or more aromatic moieties (Ars). Each of the one or more MCLs is partially conjugated with the one or more Ars at meta positions of the MCLs to form a polymer backbone of the electrochromic polymer. The electrochromic polymer undergoes an optical switching and a color change in an electrochromic device, which shows a high transparency and a high optical contrast.

An electrochromic polymer is comprised of a repeat unit comprising one or more meta-conjugated linkers (MCLs) and one or more aromatic moieties (Ars). Each of the one or more MCLs is partially conjugated with the one or more Ars at meta positions of the MCLs to form a polymer backbone of the electrochromic polymer. The electrochromic polymer undergoes an optical switching and a color change in an electrochromic device, which shows a high transparency and a high optical contrast.

A method of forming a compound having the formula (I′): (I′) includes the reaction: (II′) in the presence of a base, wherein X is a halo atom selected from the group consisting of Cl, Br and I. ##STR00001##

A method of forming a compound having the formula (I′): (I′) includes the reaction: (II′) in the presence of a base, wherein X is a halo atom selected from the group consisting of Cl, Br and I. ##STR00001##