9:20

9:30 10:30 π

1O-1 ,

, , ,

1O-2 5,15-

1 2 1, ², ², ¹, ¹

1O-3 Pt-Pd S

, , ,

10:30 10:50

10:50 11:30 π

1O-4

^{1 2 1}, ¹, ², ², ¹

1O-5 Au

, , ,

1O-6 Pd

, , , ,

11:50 13:00

13:00 14:40 io π * io

P-01* – N - α-

, ,

P-02*

, ,

P-03* sMMO N

, ,

P-04* S S l i r

1 CREST^{2 1}, ¹, ¹, ^1,2

P-05* o S 6-hpa^5-X (II) o

, , ,

P-06* 6-hpa^R (R = 4-OMe-3,5-Me2, 4-NO2) 1

1 2 , , ,

P-07* S

, , ,

P-08* , S

, ,

P-09* n

1 2 1, ¹, ², ¹,

1, ¹, ¹

P-10* r

, , , ,

P-11* S S

, ,

P-12* P450 S

, ,

P-13* S

, , , ,

P-14* p PDT S

1 o ²

3 1, 1, ¹, ^2,3, ¹

P-15* N2S2 1 1 CO2

1 JST-CREST^{2 1}, ¹, ^1,2

P-16* pn

S , ,

P-17* (IV)-

, , ,

P-18* S

1 JST ^{2 1}, ^1,2, ¹

P-19*

1 JST ^{2 1}, ^1,2, ¹

P-20 2 pn 1 en S

r (II) (II)

, , , , ,

P-21 l S

, , ,

P-22 i

i i

, , , , ^,

P-23* en Si

1 2 I²CNER ^{3 1}, ², ^2,3

P-24* SPM ¹

2 JST ^{3 1}, ^1,2,3, ^1,2, ^1,2

P-25*

, Aleksandar Staykov,

P-26* S o r

, ,

P-27 (II)i S

, , ¹, , ,

,

P-28* ^{1 2}

1,2, ^1,2, ¹, ¹, ^1,2, ^1,2

P-29* p o

JST , , ,

P-30 5 ^{1 2 3}

,

P-31* i( ) - C–H

1 2 3 I²CNER ¹, ², ^2,3

P-32 post-DFT S

1 2 (R-CCS)³ o ⁴

1, ^2,3, ¹, ³, ^2,3,4

P-33 2,3- t S pn

,

P-34* o TypeIII t

1 2 1, ¹, ², ¹

P-35* Sulfolobus tokodaii strain 7 P450 S

1 2 1,

2, ², ², ²

P-36* r i o - S (III)

C-H ( ) , , , ,

P-37* i(µ- ) r (III) S

, , ,

P-38* i S

1 2 1, ¹, ¹, ², ¹

P-39* P450 S

2 , , P-40*

, , , ,

P-41* S

, , , ,

P-42 S

, 14:40 14:50

14:50 15:50 π

1O-7 DFT Exploration of Active Site Motifs in Methane Hydroxylation by Ni-ZSM-5 Zeolite Muhammad Haris Mahyuddin,

1O-8 -NHC S

, , ,

1O-9 Mo-Fe-O o

, , ,

15:50 16:10

16:10 16:50 π

1O-10 Efficient Elimination of NH3 on Niobium Oxide Supported Au catalyst with High N2 Selectivity

o ¹ NBC r r ² Mingyue Lin¹,

Baoxiang An¹, Nao Niimi², Yohei Jikihara², Tsuruo Nakayama², Tetsuya Shishido¹, Tamao Ishida¹, Masatake Haruta¹, and Toru Murayama¹

1O-11 S e

o , , , ,

16:50 17:00 17:00 18:00

1L-1 - Bio-inspired

2 19:30 21:30

9:30 10:30 π

2O-1 Broken Symmetry Mn io

1 2 CCS^{3 4 1}, ²,

3, ⁴, ¹, ⁴, ⁴, ¹

2O-2 SO–O S ^{1 2}

I²CNER ^{3 4 1 2 2} M. Haris Mahyuddin²

Staykov Aleksandar³, ^{1,3,4 2 1,3,4}

2O-3 PCET S

10:30 10:50

10:50 11:30 π

2O-4 / S 2

1 2 1, ¹, ¹,

2, ², ¹

2O-5 (II) l S o ¹

CREST² 2 ¹, ¹, ¹, ¹, ^1,2

2O-6 Synthesis of ε-Keggin-based microporous iron vanadomolybdates for ethyl lactate oxidation

1 2 Zhenxin Zhang, ^1,2 Satoshi Ishikawa, ² Michikazu Hara, ¹ Wataru Ueda ² 11:50 12:50

12:50 13:50 π

2O-7 S o

1 2

2O-8 π

1 2 3 1,2, ^2,3, ^2,3

2O-9 P

, , ,

13:50 14:10 14:10 15:10

1L-2 S

15:10 io π

9 20 9 20

30 30

40 40

50 50

10 00 10 00

10 10

20 20

30 30

40 40

50 50

11 00 11 00

10 10

20 20

30 30

40 40

50 50

12 00 12 00

10 10

20 20

30 30

40 40

50 50

13 00 13 00

10 10

20 20

30 30

40 40

50 50

14 00 14 00

10 10

20 20

30 30

40 40

50 50

15 00 15 00

10 10

20 20

30 40 50

16 00

10 20 30 40 50

17 00

10 20 30 40 50

18 00

10 20 30 40 50

19 00

10 20 30

1O-3 Z

d 20 H

d

2O-1 h L

d

2O-3

d 20

d

1O-4

d 1O-2

g d

d 1O-1

d

H 19:30 21:30) HH

y 1L-1

d

x d 1O-10

d 1O-11

d

d

10

2O-4

d

d 2O-5

u d 2O-6

d d

2O-2

d

s H

1O-8 h

d 1O-9

d

Z d 1O-5

d

i r d

y 1L-2

M d d

2O-7

d

20 2O-8

d 2O-9

d

1O-7

d

20

1O-6 e

d

m H

a

10

P-01* P-22 P-02*

) P-23*

P-03* P-24*

P-04* P-25* ⁽

P-05* P-26*

P-06* P-27

P-07* P-28*

P-08* P-29*

P-09* P-30

P-10* P-31*

P-11* P-32

P-12* P-33

P-13* P-34*

P-14* ^, P-35*

P-15* P-36*

P-16* P-37*

P-17* P-38*

P-18* P-39*

P-19* P-40*

P-20 P-41*

P-21 P-42