PKC-1 in ASEL promotes glucose attraction and Na⁺ avoidance after glucose conditioning. by Masahiro Tomioka (430683)

Circular and Chainlike Copper(II)–Lanthanide(III) Complexes Generated by Assembly Reactions of Racemic and Chiral Copper(II) Cross-Linking Ligand Complexes with Ln^III(NO... by Takahiro Ueno (734599)

“…When the temperature was lowered, <b>1Ln</b> and <b>2Ln</b> (<b>Ln</b> = <b>Tb</b>, <b>Dy</b>) showed a decrease in the χ_M<i>T</i> vs <i>T</i> plot due to crystal field effects on the Ln^III ion (Stark splitting) and an increase due to the ferromagnetic Cu^II–Ln^III interaction. …”

Circular and Chainlike Copper(II)–Lanthanide(III) Complexes Generated by Assembly Reactions of Racemic and Chiral Copper(II) Cross-Linking Ligand Complexes with Ln^III(NO... by Takahiro Ueno (734599)

“…When the temperature was lowered, <b>1Ln</b> and <b>2Ln</b> (<b>Ln</b> = <b>Tb</b>, <b>Dy</b>) showed a decrease in the χ_M<i>T</i> vs <i>T</i> plot due to crystal field effects on the Ln^III ion (Stark splitting) and an increase due to the ferromagnetic Cu^II–Ln^III interaction. …”

Circular and Chainlike Copper(II)–Lanthanide(III) Complexes Generated by Assembly Reactions of Racemic and Chiral Copper(II) Cross-Linking Ligand Complexes with Ln^III(NO... by Takahiro Ueno (734599)

“…When the temperature was lowered, <b>1Ln</b> and <b>2Ln</b> (<b>Ln</b> = <b>Tb</b>, <b>Dy</b>) showed a decrease in the χ_M<i>T</i> vs <i>T</i> plot due to crystal field effects on the Ln^III ion (Stark splitting) and an increase due to the ferromagnetic Cu^II–Ln^III interaction. …”

Circular and Chainlike Copper(II)–Lanthanide(III) Complexes Generated by Assembly Reactions of Racemic and Chiral Copper(II) Cross-Linking Ligand Complexes with Ln^III(NO... by Takahiro Ueno (734599)

“…When the temperature was lowered, <b>1Ln</b> and <b>2Ln</b> (<b>Ln</b> = <b>Tb</b>, <b>Dy</b>) showed a decrease in the χ_M<i>T</i> vs <i>T</i> plot due to crystal field effects on the Ln^III ion (Stark splitting) and an increase due to the ferromagnetic Cu^II–Ln^III interaction. …”

Circular and Chainlike Copper(II)–Lanthanide(III) Complexes Generated by Assembly Reactions of Racemic and Chiral Copper(II) Cross-Linking Ligand Complexes with Ln^III(NO... by Takahiro Ueno (734599)

“…When the temperature was lowered, <b>1Ln</b> and <b>2Ln</b> (<b>Ln</b> = <b>Tb</b>, <b>Dy</b>) showed a decrease in the χ_M<i>T</i> vs <i>T</i> plot due to crystal field effects on the Ln^III ion (Stark splitting) and an increase due to the ferromagnetic Cu^II–Ln^III interaction. …”

Circular and Chainlike Copper(II)–Lanthanide(III) Complexes Generated by Assembly Reactions of Racemic and Chiral Copper(II) Cross-Linking Ligand Complexes with Ln^III(NO... by Takahiro Ueno (734599)

“…When the temperature was lowered, <b>1Ln</b> and <b>2Ln</b> (<b>Ln</b> = <b>Tb</b>, <b>Dy</b>) showed a decrease in the χ_M<i>T</i> vs <i>T</i> plot due to crystal field effects on the Ln^III ion (Stark splitting) and an increase due to the ferromagnetic Cu^II–Ln^III interaction. …”

Circular and Chainlike Copper(II)–Lanthanide(III) Complexes Generated by Assembly Reactions of Racemic and Chiral Copper(II) Cross-Linking Ligand Complexes with Ln^III(NO... by Takahiro Ueno (734599)

“…When the temperature was lowered, <b>1Ln</b> and <b>2Ln</b> (<b>Ln</b> = <b>Tb</b>, <b>Dy</b>) showed a decrease in the χ_M<i>T</i> vs <i>T</i> plot due to crystal field effects on the Ln^III ion (Stark splitting) and an increase due to the ferromagnetic Cu^II–Ln^III interaction. …”

Circular and Chainlike Copper(II)–Lanthanide(III) Complexes Generated by Assembly Reactions of Racemic and Chiral Copper(II) Cross-Linking Ligand Complexes with Ln^III(NO... by Takahiro Ueno (734599)

“…When the temperature was lowered, <b>1Ln</b> and <b>2Ln</b> (<b>Ln</b> = <b>Tb</b>, <b>Dy</b>) showed a decrease in the χ_M<i>T</i> vs <i>T</i> plot due to crystal field effects on the Ln^III ion (Stark splitting) and an increase due to the ferromagnetic Cu^II–Ln^III interaction. …”

Data from population B analyzed for this report. by Birgit Deboutte (19452787)

“…In population A, when two parents were screened with the VMBDD compared to one, there was an average LI decrease of 0.03 (P<0.05). …”

<i>C</i>. <i>elegans</i> memorizes the presence of monosaccharides during feeding. by Masahiro Tomioka (430683)

Legend for supporting information S2–S5. by Birgit Deboutte (19452787)

“…In population A, when two parents were screened with the VMBDD compared to one, there was an average LI decrease of 0.03 (P<0.05). …”

Seven forecast scenarios. by Ryan P. Thombs (9138968)

“…We estimate error correction models, which we ensure are free from residual autocorrelation and structural breaks. We find that a decrease in expenditures has a larger effect on decreasing energy consumption than an increase in expenditures does on increasing consumption. …”

Forecast for each scenario, 2023-2032. by Ryan P. Thombs (9138968)

“…We estimate error correction models, which we ensure are free from residual autocorrelation and structural breaks. We find that a decrease in expenditures has a larger effect on decreasing energy consumption than an increase in expenditures does on increasing consumption. …”

Compressibility, Phase Transition, and Argon Insertion in the Siliceous Zeolite Mobil-Twelve at High Pressure by Damian Paliwoda (1303656)

“…A phase transition from the space group <i>C</i>2/<i>c</i> to <i>P</i>2/<i>n</i> is observed in the nonpenetrating medium at close to 1.5 GPa with a 4% volume decrease and a strong increase in compressibility in the <i>ac</i> plane corresponding to partial collapse of the pores. …”

Compressibility, Phase Transition, and Argon Insertion in the Siliceous Zeolite Mobil-Twelve at High Pressure by Damian Paliwoda (1303656)

“…A phase transition from the space group <i>C</i>2/<i>c</i> to <i>P</i>2/<i>n</i> is observed in the nonpenetrating medium at close to 1.5 GPa with a 4% volume decrease and a strong increase in compressibility in the <i>ac</i> plane corresponding to partial collapse of the pores. …”

Compressibility, Phase Transition, and Argon Insertion in the Siliceous Zeolite Mobil-Twelve at High Pressure by Damian Paliwoda (1303656)

“…A phase transition from the space group <i>C</i>2/<i>c</i> to <i>P</i>2/<i>n</i> is observed in the nonpenetrating medium at close to 1.5 GPa with a 4% volume decrease and a strong increase in compressibility in the <i>ac</i> plane corresponding to partial collapse of the pores. …”

Compressibility, Phase Transition, and Argon Insertion in the Siliceous Zeolite Mobil-Twelve at High Pressure by Damian Paliwoda (1303656)

“…A phase transition from the space group <i>C</i>2/<i>c</i> to <i>P</i>2/<i>n</i> is observed in the nonpenetrating medium at close to 1.5 GPa with a 4% volume decrease and a strong increase in compressibility in the <i>ac</i> plane corresponding to partial collapse of the pores. …”

Compressibility, Phase Transition, and Argon Insertion in the Siliceous Zeolite Mobil-Twelve at High Pressure by Damian Paliwoda (1303656)

“…A phase transition from the space group <i>C</i>2/<i>c</i> to <i>P</i>2/<i>n</i> is observed in the nonpenetrating medium at close to 1.5 GPa with a 4% volume decrease and a strong increase in compressibility in the <i>ac</i> plane corresponding to partial collapse of the pores. …”

Compressibility, Phase Transition, and Argon Insertion in the Siliceous Zeolite Mobil-Twelve at High Pressure by Damian Paliwoda (1303656)

“…A phase transition from the space group <i>C</i>2/<i>c</i> to <i>P</i>2/<i>n</i> is observed in the nonpenetrating medium at close to 1.5 GPa with a 4% volume decrease and a strong increase in compressibility in the <i>ac</i> plane corresponding to partial collapse of the pores. …”