Host strategy for blue organic light-emitting diodes - Energy
Transcript of Host strategy for blue organic light-emitting diodes - Energy
![Page 1: Host strategy for blue organic light-emitting diodes - Energy](https://reader033.fdocuments.in/reader033/viewer/2022043021/626c1fa429e01c27102fa4bb/html5/thumbnails/1.jpg)
Host strategy for
blue organic light-emitting diodes
Prof. Jun Yeob Lee
Organic Electronics Lab. School of Chemical Engineering
Sungkyunkwan University, KOREA
![Page 2: Host strategy for blue organic light-emitting diodes - Energy](https://reader033.fdocuments.in/reader033/viewer/2022043021/626c1fa429e01c27102fa4bb/html5/thumbnails/2.jpg)
HTL
HIL
ETLEML
- High triplet energy host (Host(ET)>Dopant(ET))- Bipolar charge transport properties (carrier balance)- Suppression of degradation mechanism (TTA, TPA)- Stability under positive/negative polaron, singlet/triplet exciton
HOMOHIL < HOMOHTL = HOMO EML
LUMOHTL < LUMOEML
HTL(ET) > EML(ET)
Device design of blue PHOLED or TADF OLED
HOMOETL > HOMOEML
LUMOETL = LUMOEML
ETL(ET) > EML(ET)
HTL
EML
ETL
Triplet energy diagram
xx
![Page 3: Host strategy for blue organic light-emitting diodes - Energy](https://reader033.fdocuments.in/reader033/viewer/2022043021/626c1fa429e01c27102fa4bb/html5/thumbnails/3.jpg)
Host material classification H
ost
Mixed Host
P/N mixed host
Exciplex host
Exciplex free host
Bipolar mixed host
Single Host
Unipolar host
P-type host
N-type host
Bipolar host
![Page 4: Host strategy for blue organic light-emitting diodes - Energy](https://reader033.fdocuments.in/reader033/viewer/2022043021/626c1fa429e01c27102fa4bb/html5/thumbnails/4.jpg)
Mixed host (Exciplex free)
✓ Carrier balance : high EQE/small EQE roll-off
✓ Low driving voltage
✓ Wide emission zone
✓ Hole/electron stability
✓ TPA triggered degradation (charge trapping)
✓ Degradation by leaked carriers
J. Y. Lee et al., ACS Appl. Mater. Inter. 12, 19737 (2020)J. Y. Lee et al. J. Mater. Chem. 6, 10308 (2018)
![Page 5: Host strategy for blue organic light-emitting diodes - Energy](https://reader033.fdocuments.in/reader033/viewer/2022043021/626c1fa429e01c27102fa4bb/html5/thumbnails/5.jpg)
Mixed host (Exciplex)
✓ Carrier balance : high EQE/small EQE roll-off
✓ Low driving voltage
✓ Low triplet energy
✓ Wide emission zone
✓ Hole/electron stability
✓ Suppressed degradation (energy transfer)
J. Y. Lee et al. J. Mater. Chem. 6, 10308 (2018) J. Y. Lee et al. Adv. Opt. Mater. 1901374 (2019)
![Page 6: Host strategy for blue organic light-emitting diodes - Energy](https://reader033.fdocuments.in/reader033/viewer/2022043021/626c1fa429e01c27102fa4bb/html5/thumbnails/6.jpg)
Exciplex host for deep blue phosphor
◆Exciplex host for deep blue device
: high triplet energy n-host
J. Y. Lee et al. Adv. Opt. Mater. 1901374 (2019)
P-type Host
N-type Host
oCBP
pSiTrz mSiTrz
![Page 7: Host strategy for blue organic light-emitting diodes - Energy](https://reader033.fdocuments.in/reader033/viewer/2022043021/626c1fa429e01c27102fa4bb/html5/thumbnails/7.jpg)
Exciplex host for deep blue phosphor
◆Exciplex host for deep blue device
: high triplet energy p- and n-host
UV-vis
edge
(nm)
Singlet
energy
(eV)
Triplet
Energy
(solution)
(eV)
Triplet
Energy
(solid)
(eV)
HOMO
(eV)
LUMO
(eV)
Tg
(°C)
Td
(°C)
pSiTrz 309 3.54 3.01 2.99 -6.84 -2.83 129.9 489.2
mSiTrz 302 3.56 3.08 3.02 -6.90 -2.79 108.2 464.9
![Page 8: Host strategy for blue organic light-emitting diodes - Energy](https://reader033.fdocuments.in/reader033/viewer/2022043021/626c1fa429e01c27102fa4bb/html5/thumbnails/8.jpg)
Exciplex host for blue phosphor
◆Exciplex host for blue device
: high triplet energy p and n type host
Device
100 cd/m2 EQE (%) P.E (lm/W)
CIELT50
(h)
100 cd/
m2
1000 cd/
m2Max
100
cd/m2
1000
cd/m2Max
oCBP:pSiTrz:Ir(cb)3 0.14, 0.16 1,900 18.9 18.6 19.1 25.5 20.2 26.1
oCBP:mSiTrzIr(cb)3 0.14, 0.16 1,900 21.4 21.1 21.6 28.6 21.9 29.3
oCBP:DBFTrz:Ir(cb)3 0.14, 0.18 500 15.4 14.4 15.5 22.5 17.0 22.8
![Page 9: Host strategy for blue organic light-emitting diodes - Energy](https://reader033.fdocuments.in/reader033/viewer/2022043021/626c1fa429e01c27102fa4bb/html5/thumbnails/9.jpg)
TADF type exciplex host for blue phosphor
◆TADF type exciplex host for blue device
: triplet exciton conversion into singlet exciton
J. Y. Lee et al. Chem. Eng. J. 2020 Accepted
![Page 10: Host strategy for blue organic light-emitting diodes - Energy](https://reader033.fdocuments.in/reader033/viewer/2022043021/626c1fa429e01c27102fa4bb/html5/thumbnails/10.jpg)
TADF type exciplex host for blue phosphor
◆Exciplex host for blue device
: high triplet energy n type host P-type Host
N-type Host
mCBP
mSiTrz-oCN mSiTrz-mCN mSiTrz-pCN
Triphenylsilyl- blocking group- high ET in solid state- small binding energy
Benzonitrile- electron transport property- control of the LUMO level
![Page 11: Host strategy for blue organic light-emitting diodes - Energy](https://reader033.fdocuments.in/reader033/viewer/2022043021/626c1fa429e01c27102fa4bb/html5/thumbnails/11.jpg)
λonset (nm)[a] Eg (eV) λFL (nm) [b] ES (eV) λPH (nm) [c] ET (eV)
mSiTrz-oCN 312 3.97 359 3.45 419 2.96
mSiTrz-mCN 308 4.03 359 3.45 417 2.97
mSiTrz-pCN 307 4.04 366 3.39 431 2.88
TADF type exciplex host for blue phosphor
◆n-type host for exciplex
: high triplet energy <mSiTrz-oCN> <mSiTrz-mCN> <mSiTrz-pCN>
[a] λonset is onset value of UV-Vis spectrum[b] λFL is first peak of fluorescence emission spectrum[c] λPH is first peak of phosphorescence emission spectrum
![Page 12: Host strategy for blue organic light-emitting diodes - Energy](https://reader033.fdocuments.in/reader033/viewer/2022043021/626c1fa429e01c27102fa4bb/html5/thumbnails/12.jpg)
TADF type exciplex host for blue phosphor
◆mCBP/n-type host for exciplex
: high triplet energy exciplex formation
λmax, FL (nm) [a] ES (eV) [b] λmax, PH (nm) [c] ET (eV) [d] ΔEST
mSiTrz-oCN:mCBP 465 3.02 454 2.93 0.09
mSiTrz-mCN:mCBP 445 3.12 443 2.98 0.14
mSiTrz-pCN:mCBP 471 2.96 468 2.88 0.08
[a] λmax,FL is max peak of fluorescence emission spectrum of mixed film[b] ES is calculated from onset value of fluorescence emission spectrum of mixed film[c] λmax, PH is max peak of phosphorescence emission spectrum of mixed film[d] ET is calculated from onset value of phosphorescence emission spectrum of mixed film
<mSiTrz-oCN:mCBP> <mSiTrz-mCN:mCBP> <mSiTrz-pCN:mCBP>
![Page 13: Host strategy for blue organic light-emitting diodes - Energy](https://reader033.fdocuments.in/reader033/viewer/2022043021/626c1fa429e01c27102fa4bb/html5/thumbnails/13.jpg)
TADF type exciplex host for blue phosphor
◆mCBP/n-type host for exciplex
: high triplet energy exciplex formation
τd (μs) [a]
mSiTrz-oCN:mCBP 8.1
mSiTrz-mCN:mCBP 4.6
mSiTrz-pCN:mCBP 17.7
[a] τd is excited state lifetime of delayed component
![Page 14: Host strategy for blue organic light-emitting diodes - Energy](https://reader033.fdocuments.in/reader033/viewer/2022043021/626c1fa429e01c27102fa4bb/html5/thumbnails/14.jpg)
TADF type exciplex host for blue phosphor
◆Device structure
BPBPA HATCN mCBP Ir(cb)3 DBFTrz ZADN
![Page 15: Host strategy for blue organic light-emitting diodes - Energy](https://reader033.fdocuments.in/reader033/viewer/2022043021/626c1fa429e01c27102fa4bb/html5/thumbnails/15.jpg)
TADF type exciplex host for blue phosphor
◆Device performances
Von
(V)
EQE (%) PE (lm/W)CIE
Lifetime (h, LT50)
100 cd/m2 1000 cd/m2 Max 100 cd/m2 1000 cd/m2 Max 100 cd/m2 1000 cd/m2
mSiTrz-oCN:mCBP 2.74 17.4 15.3 17.6 21.6 14.1 29.5 (0.15, 0.22) 2040 32
mSiTrz-mCN:mCBP 2.80 21.0 19.9 21.0 22.1 16.0 25.5 (0.14, 0.18) 3130 50
mSiTrz-pCN:mCBP 2.81 13.6 11.6 13.7 22.2 14.1 30.0 (0.18, 0.32) - -
![Page 16: Host strategy for blue organic light-emitting diodes - Energy](https://reader033.fdocuments.in/reader033/viewer/2022043021/626c1fa429e01c27102fa4bb/html5/thumbnails/16.jpg)
TADF type exciplex host for blue phosphor
◆Device performances
x1.6
mSiTrz
K. H. Choi et al., Adv. Opt. Mater., 2019, 7, 1901374
mSiTrz-mCN
![Page 17: Host strategy for blue organic light-emitting diodes - Energy](https://reader033.fdocuments.in/reader033/viewer/2022043021/626c1fa429e01c27102fa4bb/html5/thumbnails/17.jpg)
Bipolar n-host for electroplex type host
◆Design concept
- bipolar n-type host to stabilize leaked holes- bipolar n-type host to stabilize excitons- exciplex or electroplex formation for energy transfer
S
-
++
+
TT T
excitonformation
Exciplex or electroplex
p-type host
Bipolar n-type host
TS
Dopant
++
--
-+
J. Y. Lee et al. Mater. Horizon. 2020
![Page 18: Host strategy for blue organic light-emitting diodes - Energy](https://reader033.fdocuments.in/reader033/viewer/2022043021/626c1fa429e01c27102fa4bb/html5/thumbnails/18.jpg)
Bipolar n-host for electroplex type host
◆Design concept
- bipolar n-type host to stabilize leaked holes- bipolar n-type host to stabilize excitons- exciplex or electroplex formation for energy transfer
Triazine
Electron transport
High triplet energy
Blocking Group
Limited molecular
packing in solid
state
High triplet energy
Electron transport Carbazole
Low emission energy
Hole stability
mCBP
![Page 19: Host strategy for blue organic light-emitting diodes - Energy](https://reader033.fdocuments.in/reader033/viewer/2022043021/626c1fa429e01c27102fa4bb/html5/thumbnails/19.jpg)
Bipolar n-host for electroplex host
◆Deep blue PHOLEDs
(a) (b)
(c) (d)
(a)
(b)
ReferenceDevice III (Top-emitting)
Device I Device II
-5.1
ITO
(150)
-5.5
PCzA
c(10)
-2.4
-5.7
mCBP
-2.4
-6.06
ZAD
N(3
0)
-3.18
-6.10
DBFTr
z(5)
-6.7
Liq
/Al
-6.0
-2.75
Ir(c
b) 3
SiT
rz
-5.89
-2.75
-3.1
BPBPA(8
0)
-2.4
HAT-C
N
-5.1
-9.0
Liq
-5.4
-3.5
-5.1
ITO
(150)
-5.5
mCBP(1
0)
-2.4
-6.0
mCBP
-2.4
-6.06
ZAD
N(3
0)
-3.18
-6.10
DBFTr
z(5)
-6.7
Liq
/Al
-6.0
-2.75
Ir(c
b) 3
SiT
rz
-5.89
-2.75
-3.1
BPBPA(8
0)
-2.4
HAT-C
N
-5.1
-9.0
Liq
-5.4
-3.5
-5.1
ITO
(8)
-5.5
mCBP
-2.4
-6.06
ZAD
N(3
0)
-3.18
-6.10
DBFTr
z(5)
-6.7
Liq
/Ag:M
g(1
5)
-6.0
-2.75
Ir(c
b) 3
SiT
rz
-5.89
-2.75
-3.1
Liq
BPBPA(1
0)
-2.4
HAT-C
N
-5.1
-9.0
-5.4
-3.5
-4.2
Ag(1
00)
mCBP(1
0)
-2.4
-6.0
-5.5
BPBPA(1
27)
-2.4
-5.1
ITO
(150)
-5.5
mCBP(1
0)
-2.4
-6.0
mCBP
-2.4
ZAD
N(3
0)
-3.18
-6.10
DBFTr
z(5)
-6.7
Liq
/Al
-6.0
Ir(c
b) 3
-5.89
-2.75
-3.1
BPBPA(8
0)
-2.4
HAT-C
N
-5.1
-9.0
Liq
-5.4
-3.5
![Page 20: Host strategy for blue organic light-emitting diodes - Energy](https://reader033.fdocuments.in/reader033/viewer/2022043021/626c1fa429e01c27102fa4bb/html5/thumbnails/20.jpg)
Bipolar n-host for electroplex host
◆Deep blue PHOLEDs
(a) (b)
(c)
Device I
Device II
Device III
Reference
100 3000 cd/m2
1E-3 0.01 0.1 1 10 100 1000 1000030
40
50
60
70
80
90
100
Lu
min
an
ce (
%)
Time (h)
![Page 21: Host strategy for blue organic light-emitting diodes - Energy](https://reader033.fdocuments.in/reader033/viewer/2022043021/626c1fa429e01c27102fa4bb/html5/thumbnails/21.jpg)
Advanced approach
◆TADF type exciplex using TADF type host
![Page 22: Host strategy for blue organic light-emitting diodes - Energy](https://reader033.fdocuments.in/reader033/viewer/2022043021/626c1fa429e01c27102fa4bb/html5/thumbnails/22.jpg)
Acknowledgements
SynthesisV. Patil (Postdoc) S Kotavale (Postdoc)H. L. Lee (MS/Ph.D) S. H. Jeong (Ph.D)J. H. Park (Ph.D) J. H. Kang (MS/Ph.D)E. G. Lee (MS) S. J. Yoon (MS)Y. S. Kim (MS) J. A. Kang (MS) J. S. Ha (MS) D. J. Shin (MS)
DeviceJ. M. Kim (Postdoc)H. J. Jang (MS/Ph.D)K. H. Lee (MS/Ph.D)W. J. Jeong (MS)J. S. Lim (MS)