2023年度:
1.Nie RM, Wei ZL, Mehta A, Chao LF, Gao JX, Chu WC, Li ZP, Miao H, Chen YH, Guo WL. Halide-Chalcogenide Hetero-Structure for Efficient and Stable Perovskite Solar Cells. Chemical Engineering Journal, 462, 142214(2023). (IF=16.744)
2.Nie RM, Chen XK, Li ZP, Chu WC, Ma S, Li CQ, Liu XM, Chen YH, Zhang ZH, Guo WL. Efficient and Stable Perovskite Solar Cells by Build-in π-Columns and Ionic Interfaces in Covalent Organic Frameworks. Nano Research (2023).(IF=10.269)
2022年度:
1. Nie RM, Chu WC, Li ZP*, Li H, Chen SS, Chen YQ, Zhang ZH, Liu XM, Guo WL*, Seok SI*, Simultaneously Suppressing Charge Recombination and Decomposition of Perovskite Solar Cells by Conjugated Covalent Organic Frameworks. Advanced Energy Materials, 12, 2200480 (2022). (IF=29.368)
1.与nbsp;聂瑞姆,朱文文,李ZP*,李H,陈SS,陈YQ,张志华,刘XM,郭WL*,Seok SI*,共轭共价有机框架同时抑制钙钛矿太阳能电池的电荷复合和分解。Advanced Energy Materials,12,2200480(2022)。(IF=29.368)
1.与nbsp;聂瑞姆,朱文文,李ZP*,李H,陈SS,陈YQ,张志华,刘XM,郭WL*,Seok SI*,共轭共价有机框架同时抑制钙钛矿太阳能电池的电荷复合和分解。Advanced Energy Materials,12,2200480(2022)。(IF=29.368)
1.与nbsp;聂瑞姆,朱文文,李ZP*,李H,陈SS,陈YQ,张志华,刘XM,郭WL*,Seok SI*,共轭共价有机框架同时抑制钙钛矿太阳能电池的电荷复合和分解。Advanced Energy Materials,12,2200480(2022)。(IF=29.368)
2. Li ZP, Zhang ZW, Nie RM,* Li CZ, Sun QK, Shi W, Chu WC, Long YY, Li H,* and Liu XM*, Construction of Stable Donor–Acceptor Type Covalent Organic Frameworks as Functional Platform for Effective Perovskite Solar Cell Enhancement. Advanced Functional Materials, 32, 2112553 (2022). (IF=18.808, ESI highly cited paper)
2.& nbsp; Li ZP,Zhang ZW,Nie RM,* Li CZ,Sun QK,Shi W,Chu WC,Long YY,Li H,* and Liu XM*,构建稳定的供体-受体型共价有机框架作为有效钙钛矿太阳能电池增强的功能平台。Advanced Functional Materials,32,2112553(2022)。(IF=18.808,ESI高引用论文)
2.& nbsp; Li ZP,Zhang ZW,Nie RM,* Li CZ,Sun QK,Shi W,Chu WC,Long YY,Li H,* and Liu XM*,构建稳定的供体-受体型共价有机框架作为有效钙钛矿太阳能电池增强的功能平台。Advanced Functional Materials,32,2112553(2022)。(IF=18.808,ESI高引用论文)
2.& amp; nbsp; Li ZP,Zhang ZW,Nie RM,* Li CZ,Sun QK,Shi W,Chu WC,Long YY,Li H,* and Liu XM*,构建稳定的供体-受体型共价有机框架作为有效钙钛矿太阳能电池增强的功能平台。Advanced Functional Materials,32,2112553(2022)。(IF=18.808,ESI高引用论文)
以往成果:
以往成果:
以往成果:
以往成果:
1. Nie RM, Mehta A, Park BW, Kwon HW, Im JN, Seok SI*, Mixed sulfur and iodide-based lead-free perovskite solar cells. Journal of the American Chemical Society, 140, 872-875(2018). (IF= 16.383, ESI highly cited paper)
1.与nbsp; Nie RM,Mehta A,Park BW,Kwon HW,Im JN,Seok SI*,混合硫和碘化物基无铅钙钛矿太阳能电池。Journal of the American Chemical Society,140,872-875(2018). (IF= 16.383,ESI高引用论文)
1.与nbsp; Nie RM,Mehta A,Park BW,Kwon HW,Im JN,Seok SI*,混合硫和碘化物基无铅钙钛矿太阳能电池。Journal of the American Chemical Society,140,872-875(2018). (IF= 16.383, ESI highly cited paper)
1.与nbsp; Nie RM,Mehta A,Park BW,Kwon HW,Im JN,Seok SI*,混合硫和碘化物基无铅钙钛矿太阳能电池。Journal of the American Chemical Society,140,872-875(2018). (IF= 16.383,ESI高引用论文)
1.与nbsp; Nie RM,Mehta A,Park BW,Kwon HW,Im JN,Seok SI*,混合硫和碘化物基无铅钙钛矿太阳能电池。Journal of the American Chemical Society,140,872-875(2018). (IF= 16.383, ESI highly cited paper)
1.与nbsp; Nie RM,Mehta A,Park BW,Kwon HW,Im JN,Seok SI*,混合硫和碘化物基无铅钙钛矿太阳能电池。Journal of the American Chemical Society,140,872-875(2018). (IF= 16.383,ESI高引用论文)
1.与nbsp; Nie RM,Mehta A,Park BW,Kwon HW,Im JN,Seok SI*,混合硫和碘化物基无铅钙钛矿太阳能电池。Journal of the American Chemical Society,140,872-875(2018). (IF= 16.383, ESI highly cited paper)
1.与nbsp; Nie RM,Mehta A,Park BW,Kwon HW,Im JN,Seok SI*,混合硫和碘化物基无铅钙钛矿太阳能电池。Journal of the American Chemical Society,140,872-875(2018). (IF= 16.383,ESI高引用论文)
2. Nie RM, Im JN, Seok SI*, Efficient Solar Cells Employing Light-Harvesting Sb0.67Bi0.33SI. Advanced Materials, 31, 1808344 (2019). (IF= 32.086)
2.聂瑞姆,林俊,徐锡,太阳能电池. Advanced Materials,31,1808344(2019)。(IF= 32.086)
2.聂瑞姆,林俊,徐锡,太阳能电池. Advanced Materials,31,1808344(2019)。(IF= 32.086)
2.聂瑞姆,林俊,徐锡,太阳能电池. Advanced Materials,31,1808344(2019)。(IF= 32.086)
2.聂瑞姆,林俊,徐锡,太阳能电池. Advanced Materials,31,1808344(2019)。(IF= 32.086)
2.聂瑞姆,林俊,徐锡,太阳能电池. Advanced Materials,31,1808344(2019)。(IF= 32.086)
2.聂瑞姆,林俊,徐锡,太阳能电池. Advanced Materials,31,1808344(2019)。(IF= 32.086)
2.聂瑞姆,林俊,徐锡,太阳能电池. Advanced Materials,31,1808344(2019)。(IF= 32.086)
3. Nie RM,# SUMUKAM RR,# Reddy SH, Banavoth M. Seok,SI*, Lead-Free Perovskite Solar Cells Enabled by Hetero-Valent Substitutes. Energy & Environmental Science, 13, 2363-2385 (2020), (IF=38.532)
3.& nbsp; Nie RM,# SUMUKAM RR,# Reddy SH,Banavoth M. Seok,SI*,Lead-Free Perovite Solar Cells Enabled by Hetero-Valent Substitutes。能源&环境科学,13,2363-2385(2020),(IF=38.532)
3.& nbsp; Nie RM,# SUMUKAM RR,# Reddy SH,Banavoth M. Seok,SI*,Lead-Free Perovite Solar Cells Enabled by Hetero-Valent Substitutes。能源&环境科学,13,2363-2385(2020),(IF=38.532)
3.& Nie RM,# SUMUKAM RR,# Reddy SH,Banavoth M. Seok,SI*,Lead-Free Perovite Solar Cells Enabled by Hetero-Valent Substitutes。能源&环境科学,13,2363-2385(2020),(IF=38.532)
3.& nbsp; Nie RM,# SUMUKAM RR,# Reddy SH,Banavoth M. Seok,SI*,Lead-Free Perovite Solar Cells Enabled by Hetero-Valent Substitutes。能源&环境科学,13,2363-2385(2020),(IF=38.532)
3.& Nie RM,# SUMUKAM RR,# Reddy SH,Banavoth M. Seok,SI*,Lead-Free Perovite Solar Cells Enabled by Hetero-Valent Substitutes。能源&环境科学,13,2363-2385(2020),(IF=38.532)
3.& Nie RM,# SUMUKAM RR,# Reddy SH,Banavoth M. Seok,SI*,Lead-Free Perovite Solar Cells Enabled by Hetero-Valent Substitutes。能源&环境科学,13,2363-2385(2020),(IF=38.532)
3.& &; Nie RM,# SUMUKAM RR,# Reddy SH,Banavoth M. Seok,SI*,Lead-Free Perovite Solar Cells Enabled by Hetero-Valent Substitutes。能源&环境科学,13,2363-2385(2020),(IF=38.532)
4. Nie RM, Hu MM, Seok SI*, Low Bandgap Heteroleptic Tin-Antimony Sulfoiodide for Stable and Lead-Free Solar Cells. Matter, 3, 1-13 (2020) (IF=15.589)
4.& nbsp;聂瑞姆,胡敏,薛思,低带隙杂配锡锑硫碘化稳定和无铅太阳能电池。Matter,3,1-13(2020)(IF=15.589)
4.& nbsp;聂瑞姆,胡敏,薛思,低带隙杂配锡锑硫碘化稳定和无铅太阳能电池。Matter,3,1-13(2020)(IF=15.589)
4.& amp; nbsp;聂瑞姆,胡敏,薛思,低带隙杂配锡锑硫碘化稳定和无铅太阳能电池。Matter,3,1-13(2020)(IF=15.589)
5. Nie RM, Yun HS, Paik MJ, Mehta A, Park BW, Choi YC, Seok SI*, Efficient Solar Cells Based on Light‐Harvesting Antimony Sulfoiodide. Advanced Energy Materials, 8, 1701901(2018). (IF=29.368)
5.及nbsp; Nie RM,Yun HS,Paik MJ,Mehta A,Park BW,Choi YC,Seok SI*,基于光收集硫碘化锑的高效太阳能电池。Advanced Energy Materials,8,1701901(2018)。(IF=29.368)
5.及nbsp; Nie RM,Yun HS,Paik MJ,Mehta A,Park BW,Choi YC,Seok SI*,基于光收集硫碘化锑的高效太阳能电池。Advanced Energy Materials,8,1701901(2018)。(IF=29.368)
5.及nbsp; Nie RM,Yun HS,Paik MJ,Mehta A,Park BW,Choi YC,Seok SI*,基于光收集硫碘化锑的高效太阳能电池。Advanced Energy Materials,8,1701901(2018)。(IF=29.368)
5.及nbsp; Nie RM,Yun HS,Paik MJ,Mehta A,Park BW,Choi YC,Seok SI*,基于光收集硫碘化锑的高效太阳能电池。Advanced Energy Materials,8,1701901(2018)。(IF=29.368)
5.及nbsp; Nie RM,Yun HS,Paik MJ,Mehta A,Park BW,Choi YC,Seok SI*,基于光收集硫碘化锑的高效太阳能电池。Advanced Energy Materials,8,1701901(2018)。(IF=29.368)
5.及nbsp; Nie RM,Yun HS,Paik MJ,Mehta A,Park BW,Choi YC,Seok SI*,基于光收集硫碘化锑的高效太阳能电池。Advanced Energy Materials,8,1701901(2018)。(IF=29.368)
5.及nbsp; Nie RM,Yun HS,Paik MJ,Mehta A,Park BW,Choi YC,Seok SI*,基于光收集硫碘化锑的高效太阳能电池。Advanced Energy Materials,8,1701901(2018)。(IF=29.368)
6. Nie RM, Kim, BH, Hong ST, Seok SI*, Nanostructured Heterojunction Solar Cells Based on Pb2SbS2I3: Linking Lead Halide Perovskites and Metal Chalcogenides. ACS Energy Letters, 3, 2376-2382(2018). (IF=23.101)
6.& nbsp; Nie RM,Kim,BH,Hong ST,Seok SI*,基于Pb 2SbS 2 I3的纳米结构异质结太阳能电池:铅卤化物钙钛矿和金属硫属化物的连接。ACS Energy Letters,3,2376-2382(2018)。(IF=23.101)
6.& nbsp; Nie RM,Kim,BH,Hong ST,Seok SI*,基于Pb 2SbS 2 I3的纳米结构异质结太阳能电池:铅卤化物钙钛矿和金属硫属化物的连接。ACS Energy Letters,3,2376-2382(2018)。(IF=23.101)
6.& amp; nbsp; Nie RM,Kim,BH,Hong ST,Seok SI*,基于Pb 2SbS 2 I3的纳米结构异质结太阳能电池:铅卤化物钙钛矿和金属硫属化物的连接。ACS Energy Letters,3,2376-2382(2018)。(IF=23.101)
7. Nie RM, Lee KS, Hu, MM, Seok SI*, Strain Relaxation via Larger Cation and Anion Co-Doping for Efficient and Stable Antimony-Based Solar Cells. Advanced Science, 8, 2002391 (2021). (IF=16.806)
8.& nbsp; Nie RM,Lee KS,Hu,MM,Seok SI*,通过较大阳离子和阴离子共掺杂来实现高效和稳定的锑基太阳能电池的应变松弛。Advanced Science,8,2002391(2021)。(IF=16.806)
7.& nbsp; Nie RM,Lee KS,Hu,MM,Seok SI*,通过较大阳离子和阴离子共掺杂来实现高效和稳定的锑基太阳能电池的应变松弛。Advanced Science,8,2002391(2021)。(IF=16.806)
8.& amp; nbsp; Nie RM,Lee KS,Hu,MM,Seok SI*,通过较大阳离子和阴离子共掺杂来实现高效和稳定的锑基太阳能电池的应变松弛。Advanced Science,8,2002391(2021)。(IF=16.806)
7.& nbsp; Nie RM,Lee KS,Hu,MM,Seok SI*,通过较大阳离子和阴离子共掺杂来实现高效和稳定的锑基太阳能电池的应变松弛。Advanced Science,8,2002391(2021)。(IF=16.806)
8.& amp; nbsp; Nie RM,Lee KS,Hu,MM,Seok SI*,通过较大阳离子和阴离子共掺杂来实现高效和稳定的锑基太阳能电池的应变松弛。Advanced Science,8,2002391(2021)。(IF=16.806)
7.& amp; nbsp; Nie RM,Lee KS,Hu,MM,Seok SI*,通过较大阳离子和阴离子共掺杂来实现高效和稳定的锑基太阳能电池的应变松弛。Advanced Science,8,2002391(2021)。(IF=16.806)
8.& amp; amp; nbsp; Nie RM,Lee KS,Hu,MM,Seok SI*,通过较大阳离子和阴离子共掺杂来实现高效和稳定的锑基太阳能电池的应变松弛。Advanced Science,8,2002391(2021)。(IF=16.806)
8. Nie RM, Hu MM, Risqi AM, Li ZP, Seok SI*, Efficient and Stable Antimony Selenoiodide Solar Cells. Advanced Science, 8, 2003172 (2021). (IF=16.806)
9.及nbsp;聂瑞姆,胡敏,里斯琪AM,李ZP,Seok SI*,高效稳定的硒化锑太阳能电池. Advanced Science,8,2003172(2021)。(IF=16.806)
8.& nbsp;聂瑞姆,胡敏,里斯琪AM,李ZP,Seok SI*,高效稳定的硒化锑太阳能电池. Advanced Science,8,2003172(2021)。(IF=16.806)
9.及nbsp;聂瑞姆,胡敏,里斯琪AM,李ZP,Seok SI*,高效稳定的硒化锑太阳能电池. Advanced Science,8,2003172(2021)。(IF=16.806)
8.& nbsp;聂瑞姆,胡敏,里斯琪AM,李ZP,Seok SI*,高效稳定的硒化锑太阳能电池. Advanced Science,8,2003172(2021)。(IF=16.806)
9.及nbsp;聂瑞姆,胡敏,里斯琪AM,李ZP,Seok SI*,高效稳定的硒化锑太阳能电池. Advanced Science,8,2003172(2021)。(IF=16.806)
8.& amp; nbsp;聂瑞姆,胡敏,里斯琪AM,李ZP,Seok SI*,高效稳定的硒化锑太阳能电池. Advanced Science,8,2003172(2021)。(IF=16.806)
9.及nbsp;聂瑞姆,胡敏,里斯琪AM,李ZP,Seok SI*,高效稳定的硒化锑太阳能电池. Advanced Science,8,2003172(2021)。(IF=16.806)
9. Nie RM, Seok SI*, Efficient Antimony–Based Solar Cells by Enhanced Charge Transfer. Small Methods, 14, 1900698 (2020) (IF=14.188, Highlighted by Advanced Science News)
9. Nie RM,Seok SI*,通过增强电荷转移的高效锑基太阳能电池。Small Methods,14,1900698(2020)(IF=14.188,由Advanced Science News突出显示)
9. Nie RM,Seok SI*,通过增强电荷转移的高效锑基太阳能电池。Small Methods,14,1900698(2020)(IF=14.188,由Advanced Science News突出显示)
9. Nie RM,Seok SI*,通过增强电荷转移的高效锑基太阳能电池。Small Methods,14,1900698(2020)(IF=14.188,由Advanced Science News突出显示)
10. Nie RM, Deng XY*, Feng L, Hu GG, Wang YY, Yu G, Xu JB*. Highly Sensitive and Broadband Organic Photodetectors with Fast Speed Gain and Large Linear Dynamic Range at Low Forward Bias. Small, 13, 1603260(2017). (IF=13.281, Highlighted by Advanced Science News)
12.及nbsp;聂瑞姆,邓晓欣 *,冯L,胡GG,王YY,余G,徐JB*.具有快速增益和大线性动态范围的高灵敏度宽频带有机光电探测器。Small,13,1603260(2017). (IF=13.281,由Advanced Science News突出显示)
10.和nbsp;聂瑞姆,邓晓欣 *,冯L,胡GG,王YY,余G,徐JB*.具有快速增益和大线性动态范围的高灵敏度宽频带有机光电探测器。Small,13,1603260(2017). (IF=13.281, Highlighted by Advanced Science News)
12.及nbsp;聂瑞姆,邓晓欣 *,冯L,胡GG,王YY,余G,徐JB*.具有快速增益和大线性动态范围的高灵敏度宽频带有机光电探测器。Small,13,1603260(2017). (IF=13.281,由Advanced Science News突出显示)
11. Nie RM, Li AY, Deng XY*, Environmentally Friendly Biomaterials as an Interfacial Layer for Highly Efficient and Air-stable Inverted Organic Solar Cells, Journal of Materials Chemistry A, 2, 6734 – 6739(2014). (IF=12.732, Inside cover)
13.& nbsp; Nie RM,Li AY,Deng XY*,Environmentally Friendly Biomaterials as an Interfacial Layer for Highly Efficient and Air-stable Inverted Organic Solar Cells,Journal of Materials Chemistry A,2,6734 - 6739(2014)。(IF=12.732,内盖)
11.及nbsp; Nie RM,Li AY,Deng XY*,Environmentally Friendly Biomaterials as an Interfacial Layer for Highly Efficient and Air-stable Inverted Organic Solar Cells,Journal of Materials Chemistry A,2,6734 - 6739(2014)。(IF=12.732,内盖)
13.& amp; nbsp; Nie RM,Li AY,Deng XY*,Environmentally Friendly Biomaterials as an Interfacial Layer for Highly Efficient and Air-stable Inverted Organic Solar Cells,Journal of Materials Chemistry A,2,6734 - 6739(2014). (IF=12.732,内盖)
11.及nbsp; Nie RM,Li AY,Deng XY*,Environmentally Friendly Biomaterials as an Interfacial Layer for Highly Efficient and Air-stable Inverted Organic Solar Cells,Journal of Materials Chemistry A,2,6734 - 6739(2014)。(IF=12.732,内盖)
13.& amp; nbsp; Nie RM,Li AY,Deng XY*,Environmentally Friendly Biomaterials as an Interfacial Layer for Highly Efficient and Air-stable Inverted Organic Solar Cells,Journal of Materials Chemistry A,2,6734 - 6739(2014). (IF=12.732,内盖)
11.及nbsp; Nie RM,Li AY,Deng XY*,Environmentally Friendly Biomaterials as an Interfacial Layer for Highly Efficient and Air-stable Inverted Organic Solar Cells,Journal of Materials Chemistry A,2,6734 - 6739(2014)。(IF=12.732,内盖)
13.& amp; amp; nbsp; Nie RM,Li AY,Deng XY*,Environmentally Friendly Biomaterials as an Interfacial Layer for Highly Efficient and Air-stable Inverted Organic Solar Cells,Journal of Materials Chemistry A,2,6734 - 6739(2014)。(IF=12.732,内盖)
12. Nie RM, Wang YY, Deng XY*, Aligned Nanofibers as an Interfacial Layer for Achieving High-Detectivity and Fast-Response Organic Photodetectors, ACS Applied Materials & Interfaces, 6,7032–7037(2014). (IF=9.229)
14.及nbsp; Nie RM,Wang YY,Deng XY*,Aligned Nanofibers as an Interfacial Layer for Achieving High-Detectivity and Fast-Response Organic Photodetectors,ACS Applied Materials& Interfaces,6,7032 -7037(2014)。(IF=9.229)
12.及nbsp; Nie RM,Wang YY,Deng XY*,Aligned Nanofibers as an Interfacial Layer for Achieving High-Detectivity and Fast-Response Organic Photodetectors,ACS Applied Materials& Interfaces,6,7032 -7037(2014)。(IF=9.229)
14.及nbsp; Nie RM,Wang YY,Deng XY*,Aligned Nanofibers as an Interfacial Layer for Achieving High-Detectivity and Fast-Response Organic Photodetectors,ACS Applied Materials& Interfaces,6,7032 -7037(2014)。(IF=9.229)
12.及nbsp; Nie RM,Wang YY,Deng XY*,Aligned Nanofibers as an Interfacial Layer for Achieving High-Detectivity and Fast-Response Organic Photodetectors,ACS Applied Materials& Interfaces,6,7032 -7037(2014)。(IF=9.229)
14.及nbsp; Nie RM,Wang YY,Deng XY*,Aligned Nanofibers as an Interfacial Layer for Achieving High-Detectivity and Fast-Response Organic Photodetectors,ACS Applied Materials& Interfaces,6,7032 -7037(2014)。(IF=9.229)
12.及nbsp; Nie RM,Wang YY,Deng XY*,Aligned Nanofibers as an Interfacial Layer for Achieving High-Detectivity and Fast-Response Organic Photodetectors,ACS Applied Materials& Interfaces,6,7032 -7037(2014)。(IF=9.229)
14.及nbsp; Nie RM,Wang YY,Deng XY*,Aligned Nanofibers as an Interfacial Layer for Achieving High-Detectivity and Fast-Response Organic Photodetectors,ACS Applied Materials& Interfaces,6,7032 -7037(2014)。(IF=9.229)
13. Nie RM, Wang YY, Yuan WW, Chen C, Deng XY*, Reduced Recombination by Fullerene Composited Metal Oxide as Electron Extraction Layers for Hybrid Optoelectronic Devices, Journal of Physical Chemistry C, 118, 18962−18968(2014). (IF=4.126)
15.及nbsp; Nie RM,Wang YY,Yuan WW,Chen C,Deng XY*,Reduced Recombination by Fullerene Composed Metal Oxide as Electron Extraction Layers for Hybrid Optoelectronic Devices,Journal of Physical Chemistry C,118,18962−18968(2014). (IF=4.126)
13.& nbsp; Nie RM,Wang YY,Yuan WW,Chen C,Deng XY*,Reduced Recombination by Fullerene Composed Metal Oxide as Electron Extraction Layers for Hybrid Optoelectronic Devices,Journal of Physical Chemistry C,118,18962−18968(2014). (IF=4.126)
15.及nbsp; Nie RM,Wang YY,Yuan WW,Chen C,Deng XY*,Reduced Recombination by Fullerene Composed Metal Oxide as Electron Extraction Layers for Hybrid Optoelectronic Devices,Journal of Physical Chemistry C,118,18962−18968(2014). (IF=4.126)
13.& nbsp; Nie RM,Wang YY,Yuan WW,Chen C,Deng XY*,Reduced Recombination by Fullerene Composed Metal Oxide as Electron Extraction Layers for Hybrid Optoelectronic Devices,Journal of Physical Chemistry C,118,18962−18968(2014). (IF=4.126)
15.及nbsp; Nie RM,Wang YY,Yuan WW,Chen C,Deng XY*,Reduced Recombination by Fullerene Composed Metal Oxide as Electron Extraction Layers for Hybrid Optoelectronic Devices,Journal of Physical Chemistry C,118,18962−18968(2014). (IF=4.126)
13.& Nie RM,Wang YY,Yuan WW,Chen C,Deng XY*,通过富勒烯复合金属氧化物作为混合光电器件电子提取层的还原重组,Journal of Physical Chemistry C,118,18962 - 18968(2014)。(IF=4.126)
15.及nbsp; Nie RM,Wang YY,Yuan WW,Chen C,Deng XY*,Reduced Recombination by Fullerene Composed Metal Oxide as Electron Extraction Layers for Hybrid Optoelectronic Devices,Journal of Physical Chemistry C,118,18962−18968(2014). (IF=4.126)
