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Dai H.J.

Chair Professor (Host Dept: Chemistry)

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Rm 301, Chong Yuet Ming Chemistry Building

+(852) 3910 2208

+(852) 3910 2208

Rm 301, Chong Yuet Ming Chemistry Building

Rm 301, Chong Yuet Ming Chemistry Building

Biography:

Dai is currently a Chair Professor of Chemistry and jointly at School of Engineering and Biomedical Sciences at Hong Kong University, and the J. G. Jackson and C. J. Wood Professor of Chemistry, Emeritus at Stanford University. Dai has made fundamental contributions to nanosciences and nanomedicine. Dai developed widely adopted chemical vapor deposition for carbon nanotubes; invented the first electrical nanosensors using nanotube transistors; pushed nanotube transistors to the ballistic limit; pioneered nano-carbon biological applications for novel imaging and therapy; and pioneered the field of in vivo NIR-II/SWIR imaging.


Dai was born May 2, 1966, in Shaoyang City, Hunan Province of China. He received a BS degree in Physics from Tsinghua University in 1989, a MS degree in Applied Sciences from Columbia University in 1991, and a PhD in Applied Physics/Physical Chemistry from Harvard University in 1994.


Honours and Awards:

(1) Nano Research Award, 2022

(2) Citation Laureate by the Institute for Scientific Information at Clarivate, 2020

(3) Member of the US National Academy of Medicine (NAM), 2019.

(4) Foreign member of the Chinese Academy of Sciences (CAS), 2019

(5) NIH Director’s Pioneer Award, 2017.

(6) Member of the US National Academy of Sciences (NAS), 2016.

(7) Materials Research Society (MRS) Mid-Career Researcher Award, 2016.

(8) Fellow of the American Association for the Advancement of Sciences, 2010

(9) Fellow of American Academy of Arts and Sciences, 2009.

(10) American Physical Society James McGroddy Prize for New Materials, 2006.

(11) Julius Springer Prize for Applied Physics, 2004

(12) Camille Dreyfus Teacher-Scholar Award, 2002

(13) American Chemical Society Pure Chemistry Award, 2002

(14) Alfred P. Sloan Research Fellow, 2001

(15) Packard Fellowship for Science and Engineering, 1999

(16) Terman Fellowship, Stanford University, 1998

(17) Camille and Henry Dreyfus New Faculty Award, 1997


Professional Services:

(1) Founding Editor and Editor-in-chief, Nano Research, Springer & Tsinghua Univ. Press.

(2) Editorial board member for Nano Lett., Advanced Materials, Small, Nanotechnology, Advanced Functional Materials, Chemical Physics Letter, Applied Physics A.

(3) Advisory board member, Center for Nanotechnology, Rice University.



Research Description:

Professor Dai’s group research has been highly interdisciplinary, bridging physical sciences, materials science and engineering, electrical engineering, bioengineering and medicine.


Professor Dai’s students and postdocs are all over the world including many professors in Materials Sciences and Electrical Engineering Departments of Universities such as Stanford, MIT, UC Berkeley, Yale, Duke, USC, BC, Univ. Tokyo, Tsinghua, Fudan, Peking University, Nanjing University, SooChow University, et. al.


Over the years Professor Dai’s lab pioneered carbon based nanosciences including (1) CVD synthesis of carbon nanotubes and the first graphene nanoribbons, (2) ballistic CNT based field-effect transistors, CNT nanoelectronic sensors, (3) CNT based drug delivery and photothermal therapy, (4) graphene nanosheets based nanomedicine and (5) NIR-II/SWIR (Near-infrared-II/short wave infrared) biological imaging using nanotubes, quantum dots, rare-earth nanoparticles and organic molecule based probes.


In the renewable energy area, Professor Dai’s group devised ‘strongly coupled carbon-inorganic hybrid materials’ by growing electrocatalyst and battery material on CNTs and graphene in solution phase, leading to advanced electrochemical properties for water splitting, O2 and H2 reduction and batteries. Professor Dai’s group invented rechargeable Al battery, and Li/Cl2 and Na/Cl2 batteries.


Current research interest include the following.

1. Nanomaterials research:

• Synthesis of novel nanomaterials in 0D (nanoparticles, quantum dots), 1D (wires and tubes) and 2D (sheets) with interesting physical, physiochemical and catalytic properties.

• Spectroscopy and Microscopy characterization using advanced analytical tools.

2. New materials for renewable energy research:

• Electrocatalysis for water splitting including seawater.

• New approaches to electrocatalytic CO2 reduction to value added products with high selectivity.

• New materials development for solving environmental and energy problems.

• Develop new generations of rechargeable batteries.

• Al based batteries.

• Rechargeable Li/Cl2 and Na/Cl2 batteries.

• Batteries using non-flammable electrolytes, including ionic liquid, polymer and solid state electrolytes.

3. Nanomedicine and bioengineering research:

• Organic synthesis of new dye molecules for fluorescence imaging in the NIR-II/SWIR (1000-3000 nm) window.

• Synthesis of nanoparticles/nanocrystals for NIR-II/SWIR emission.

• Developing genetically engineered NIR emitting fluorescent proteins.

• Develop new optical imaging techniques integrating 1-, 2- and 3- photon detections in the visible and NIR-II/SWIR.

• Molecular imaging of preclinical mouse models of diseases (including cancer, cardiovascular, brain/neurological, etc.) in vivo.

• In vivo Imaging of immune responses to immunotherapy and vaccinations.

• Nanovaccine development for cancer immunity and infectious diseases.

• Towards clinical translation of NIR-II/SWIR imaging for perfusion, lymph node mapping, immunotherapy, photodynamic therapy and imaging guided surgery.


We are actively recruiting graduate PhD students and postdoctoral fellows. Candidates with strong background in chemistry, applied physics, materials science/chemical engineering/ bioengineering and medicine are encouraged to apply for these positions. Send your inquiry to hjdai@hku.hk with your CV.

Research Areas

Materials Chemistry and Physics; 

nanoscience and nanomedicine; 

biomedical science and engineering; 

near-infrared-II/short wavelength infrared (NIR-II/SWIR) imaging

Research Projects

Publications

Salazar, F., Xu, C., Jiang, Y., Ma, Z., Zhu, G., Zhao, X., Wong, K.K., Willis, R., Christopher Garcia, K., Wu, A., Mellins, E., Dai, H.

Shortwave-infrared-light-emitting probes for the in vivo tracking of cancer vaccines and the elicited immune responses

(2023) Nature Biomedical Engineering, .

https://www.scopus.com/inward/record.uri?eid=2-s2.0-85168575866&doi=10.1038%2fs41551-023-01083-5&partnerID=40&md5=3e86c08d4f81e1bae9df5ee1100a6843


DOI: 10.1038/s41551-023-01083-5


Liang, P., Sun, H., Huang, C.-L., Zhu, G., Tai, H.-C., Li, J., Wang, F., Wang, Y., Huang, C.-J., Jiang, S.-K., Lin, M.-C., Li, Y.-Y., Hwang, B.-J., Wang, C.-A., Dai, H.

A Nonflammable High-Voltage 4.7 V Anode-Free Lithium Battery

(2022) Advanced Materials, 34 (51), art. no. 2207361, . Cited 9 times.

https://www.scopus.com/inward/record.uri?eid=2-s2.0-85141724909&doi=10.1002%2fadma.202207361&partnerID=40&md5=2eecae5b9ef21315634f6d69fc8af427


DOI: 10.1002/adma.202207361


Zhu, G., Liang, P., Huang, C.-L., Huang, C.-C., Li, Y.-Y., Wu, S.-C., Li, J., Wang, F., Tian, X., Huang, W.-H., Jiang, S.-K., Hung, W.-H., Chen, H., Lin, M.-C., Hwang, B.-J., Dai, H.

High-Capacity Rechargeable Li/Cl2Batteries with Graphite Positive Electrodes

(2022) Journal of the American Chemical Society, 144 (49), pp. 22505-22513. Cited 3 times.

https://www.scopus.com/inward/record.uri?eid=2-s2.0-85143391928&doi=10.1021%2fjacs.2c07826&partnerID=40&md5=029974e8761a1ff4accea2e1509a48c5


DOI: 10.1021/jacs.2c07826


Baghdasaryan, A., Wang, F., Ren, F., Ma, Z., Li, J., Zhou, X., Grigoryan, L., Xu, C., Dai, H.

Phosphorylcholine-conjugated gold-molecular clusters improve signal for Lymph Node NIR-II fluorescence imaging in preclinical cancer models

(2022) Nature Communications, 13 (1), art. no. 5613, . Cited 15 times.

https://www.scopus.com/inward/record.uri?eid=2-s2.0-85138459264&doi=10.1038%2fs41467-022-33341-6&partnerID=40&md5=44ec2159c508997ed90675e486ed765e


DOI: 10.1038/s41467-022-33341-6


Fenta, F.W., Olbasa, B.W., Tsai, M.-C., Temesgen, N.T., Huang, W.-H., Tekaligne, T.M., Nikodimos, Y., Wu, S.-H., Su, W.-N., Dai, H., Hwang, B.J.

Structural engineering of α-MnO2 cathode by Ag+ incorporation for high capacity aqueous zinc-ion batteries

(2022) Journal of Power Sources, 548, art. no. 232010, . Cited 5 times.

https://www.scopus.com/inward/record.uri?eid=2-s2.0-85138107128&doi=10.1016%2fj.jpowsour.2022.232010&partnerID=40&md5=f26432e335894bfd36201579841d0a2e


DOI: 10.1016/j.jpowsour.2022.232010


Wang, F., Ren, F., Ma, Z., Qu, L., Gourgues, R., Xu, C., Baghdasaryan, A., Li, J., Zadeh, I.E., Los, J.W.N., Fognini, A., Qin-Dregely, J., Dai, H.

In vivo non-invasive confocal fluorescence imaging beyond 1,700 nm using superconducting nanowire single-photon detectors

(2022) Nature Nanotechnology, 17 (6), pp. 653-660. Cited 42 times.

https://www.scopus.com/inward/record.uri?eid=2-s2.0-85130705718&doi=10.1038%2fs41565-022-01130-3&partnerID=40&md5=7141744bf648eb723367fcbad7b66783


DOI: 10.1038/s41565-022-01130-3


Li, J., Guo, J., Dai, H.

Probing dissolved CO2(aq) in aqueous solutions for CO2 electroreduction and storage

(2022) Science Advances, 8 (19), art. no. eabo0399, . Cited 10 times.

https://www.scopus.com/inward/record.uri?eid=2-s2.0-85130060840&doi=10.1126%2fsciadv.abo0399&partnerID=40&md5=afdad34f82317a5224c5b0fa993e286b


DOI: 10.1126/sciadv.abo0399


Wang, F., Qu, L., Ren, F., Baghdasaryan, A., Jiang, Y., Hsu, R., Liang, P., Li, J., Zhu, G., Ma, Z., Dai, H.

High-precision tumor resection down to few-cell level guided by NIR-IIb molecular fluorescence imaging

(2022) Proceedings of the National Academy of Sciences of the United States of America, 119 (15), art. no. e2123111119, . Cited 18 times.

https://www.scopus.com/inward/record.uri?eid=2-s2.0-85127695046&doi=10.1073%2fpnas.2123111119&partnerID=40&md5=99aeda2dc1039282c7dca9b70ed4268f


DOI: 10.1073/pnas.2123111119


Olbasa, B.W., Huang, C.-J., Fenta, F.W., Jiang, S.-K., Chala, S.A., Tao, H.-C., Nikodimos, Y., Wang, C.-C., Sheu, H.-S., Yang, Y.-W., Ma, T.-L., Wu, S.-H., Su, W.-N., Dai, H., Hwang, B.J.

Highly Reversible Zn Metal Anode Stabilized by Dense and Anion-Derived Passivation Layer Obtained from Concentrated Hybrid Aqueous Electrolyte

(2022) Advanced Functional Materials, 32 (7), art. no. 2103959, . Cited 32 times.

https://www.scopus.com/inward/record.uri?eid=2-s2.0-85118214437&doi=10.1002%2fadfm.202103959&partnerID=40&md5=960bcb7b3aaa2b2b851829e382dafe23


DOI: 10.1002/adfm.202103959


Hagos, T.M., Bezabh, H.K., Redda, H.G., Moges, E.A., Huang, W.-H., Huang, C.-J., Su, W.-N., Dai, H., Hwang, B.J.

Exploring the performance of carbonate and ether-based electrolytes for anode-free lithium metal batteries operating under various conditions

(2021) Journal of Power Sources, 512, art. no. 230388, . Cited 5 times.

https://www.scopus.com/inward/record.uri?eid=2-s2.0-85114407990&doi=10.1016%2fj.jpowsour.2021.230388&partnerID=40&md5=e62a554eb3364bd8ca81a9f76e19b027


DOI: 10.1016/j.jpowsour.2021.230388


Chala, S.A., Tsai, M.-C., Olbasa, B.W., Lakshmanan, K., Huang, W.-H., Su, W.-N., Liao, Y.-F., Lee, J.-F., Dai, H., Hwang, B.J.

Tuning Dynamically Formed Active Phases and Catalytic Mechanisms of in Situ Electrochemically Activated Layered Double Hydroxide for Oxygen Evolution Reaction

(2021) ACS Nano, 15 (9), pp. 14996-15006. Cited 38 times.

https://www.scopus.com/inward/record.uri?eid=2-s2.0-85116023749&doi=10.1021%2facsnano.1c05250&partnerID=40&md5=4c474e8e05cd7c2b3904b22502bb826b


DOI: 10.1021/acsnano.1c05250


Chen, C., Lin, Y., Zhou, W., Gong, M., He, Z., Shi, F., Li, X., Wu, J.Z., Lam, K.T., Wang, J.N., Yang, F., Zeng, Q., Guo, J., Gao, W., Zuo, J.-M., Liu, J., Hong, G., Antaris, A.L., Lin, M.-C., Mao, W.L., Dai, H.

Sub-10-nm graphene nanoribbons with atomically smooth edges from squashed carbon nanotubes

(2021) Nature Electronics, 4 (9), pp. 653-663. Cited 42 times.

https://www.scopus.com/inward/record.uri?eid=2-s2.0-85114620638&doi=10.1038%2fs41928-021-00633-6&partnerID=40&md5=05c06b913c462de010f8c8131ba411f9


DOI: 10.1038/s41928-021-00633-6


Zhu, G., Tian, X., Tai, H.-C., Li, Y.-Y., Li, J., Sun, H., Liang, P., Angell, M., Huang, C.-L., Ku, C.-S., Hung, W.-H., Jiang, S.-K., Meng, Y., Chen, H., Lin, M.-C., Hwang, B.-J., Dai, H.

Rechargeable Na/Cl2 and Li/Cl2 batteries

(2021) Nature, 596 (7873), pp. 525-530. Cited 62 times.

https://www.scopus.com/inward/record.uri?eid=2-s2.0-85113358235&doi=10.1038%2fs41586-021-03757-z&partnerID=40&md5=4e524cad9802b61ce9cb351aa0f08de6


DOI: 10.1038/s41586-021-03757-z


Huang, C.-J., Cheng, J.-H., Su, W.-N., Partovi-Azar, P., Kuo, L.-Y., Tsai, M.-C., Lin, M.-H., Jand, S.P., Chan, T.-S., Wu, N.-L., Kaghazchi, P., Dai, H., Bieker, P.M., Hwang, B.-J.

Corrigendum to “Origin of shuttle-free sulfurized polyacrylonitrile in lithium-sulfur batteries” [J. Power Sources 492 (30 April 2021) 229508] (Journal of Power Sources (2021) 492, (S0378775321000574), (10.1016/j.jpowsour.2021.229508))

(2021) Journal of Power Sources, 495, art. no. 229818, .

https://www.scopus.com/inward/record.uri?eid=2-s2.0-85103730776&doi=10.1016%2fj.jpowsour.2021.229818&partnerID=40&md5=9aa0694cf0287d104cf539d91acdd9e3


DOI: 10.1016/j.jpowsour.2021.229818


Huang, C.-J., Cheng, J.-H., Su, W.-N., Partovi-Azar, P., Kuo, L.-Y., Tsai, M.-C., Lin, M.-H., Panahian Jand, S., Chan, T.-S., Wu, N.-L., Kaghazchi, P., Dai, H., Bieker, P.M., Hwang, B.-J.

Origin of shuttle-free sulfurized polyacrylonitrile in lithium-sulfur batteries

(2021) Journal of Power Sources, 492, art. no. 229508, . Cited 26 times.

https://www.scopus.com/inward/record.uri?eid=2-s2.0-85101519981&doi=10.1016%2fj.jpowsour.2021.229508&partnerID=40&md5=de31e2e56cd9c7f6a3a997bcf87d1f11


DOI: 10.1016/j.jpowsour.2021.229508


Andersen, C.K., Khatri, S., Hansen, J., Slott, S., Parvathaneni, R.P., Mendes, A.C., Chronakis, I.S., Hung, S.-C., Rajasekaran, N., Ma, Z., Zhu, S., Dai, H., Mellins, E.D., Astakhova, K.

Carbon nanotubes—potent carriers for targeted drug delivery in rheumatoid arthritis

(2021) Pharmaceutics, 13 (4), art. no. 453, . Cited 18 times.

https://www.scopus.com/inward/record.uri?eid=2-s2.0-85103886722&doi=10.3390%2fpharmaceutics13040453&partnerID=40&md5=b763d70734bec152baf7aa7c4ab7a973


DOI: 10.3390/pharmaceutics13040453


Yang, Q., Ma, H., Liang, Y., Dai, H.

Rational Design of High Brightness NIR-II Organic Dyes with S-D-A-D-S Structure

(2021) Accounts of Materials Research, 2 (3), pp. 170-183. Cited 56 times.

https://www.scopus.com/inward/record.uri?eid=2-s2.0-85108843231&doi=10.1021%2faccountsmr.0c00114&partnerID=40&md5=cc10a08da67058e2460d285e42981c20


DOI: 10.1021/accountsmr.0c00114


Zhang, X., Li, J., Li, Y.-Y., Jung, Y., Kuang, Y., Zhu, G., Liang, Y., Dai, H.

Selective and High Current CO2Electro-Reduction to Multicarbon Products in Near-Neutral KCl Electrolytes

(2021) Journal of the American Chemical Society, 143 (8), pp. 3245-3255. Cited 68 times.

https://www.scopus.com/inward/record.uri?eid=2-s2.0-85101878143&doi=10.1021%2fjacs.0c13427&partnerID=40&md5=00c2384b1f7b018130358ae3d30c2ed0


DOI: 10.1021/jacs.0c13427


Wang, F., Ma, Z., Zhong, Y., Salazar, F., Xu, C., Ren, F., Qu, L., Wu, A.M., Dai, H.

In vivo NIR-II structured-illumination light-sheet microscopy

(2021) Proceedings of the National Academy of Sciences of the United States of America, 118 (6), art. no. e2023888118, . Cited 34 times.

https://www.scopus.com/inward/record.uri?eid=2-s2.0-85100570876&doi=10.1073%2fpnas.2023888118&partnerID=40&md5=fd1fa9ba8c8d70d186c5de75f6f4d7f6


DOI: 10.1073/pnas.2023888118


Ma, Z., Wang, F., Wang, W., Zhong, Y., Dai, H.

Deep learning for in vivo near-infrared imaging

(2021) Proceedings of the National Academy of Sciences of the United States of America, 118 (1), art. no. e2021446118, . Cited 44 times.

https://www.scopus.com/inward/record.uri?eid=2-s2.0-85099116056&doi=10.1073%2fPNAS.2021446118&partnerID=40&md5=41bf9b8b5566b0942bb728cce60e48df


DOI: 10.1073/PNAS.2021446118


Hsu, L.-Y., Yen, H.-C., Lee, M.-W., Sheu, Y.-L., Chen, P.-C., Dai, H., Chen, C.-C.

Large-Scale Inhomogeneous Fluorescence Plasmonic Silver Chips: Origin and Mechanism

(2020) Chem, 6 (12), pp. 3396-3408. Cited 10 times.

https://www.scopus.com/inward/record.uri?eid=2-s2.0-85097403484&doi=10.1016%2fj.chempr.2020.10.014&partnerID=40&md5=0b7c59307f5d43cc135396108adcf42c


DOI: 10.1016/j.chempr.2020.10.014


Liu, T., Hsiung, J., Zhao, S., Kost, J., Sreedhar, D., Hanson, C.V., Olson, K., Keare, D., Chang, S.T., Bliden, K.P., Gurbel, P.A., Tantry, U.S., Roche, J., Press, C., Boggs, J., Rodriguez-Soto, J.P., Montoya, J.G., Tang, M., Dai, H.

Quantification of antibody avidities and accurate detection of SARS-CoV-2 antibodies in serum and saliva on plasmonic substrates

(2020) Nature Biomedical Engineering, 4 (12), pp. 1188-1196. Cited 61 times.

https://www.scopus.com/inward/record.uri?eid=2-s2.0-85094190655&doi=10.1038%2fs41551-020-00642-4&partnerID=40&md5=3e6f0fc86f048d5325aeedea5f54254a


DOI: 10.1038/s41551-020-00642-4


Xu, W., Wang, L., Zhang, R., Sun, X., Huang, L., Su, H., Wei, X., Chen, C.-C., Lou, J., Dai, H., Qian, K.

Diagnosis and prognosis of myocardial infarction on a plasmonic chip

(2020) Nature Communications, 11 (1), art. no. 1654, . Cited 77 times.

https://www.scopus.com/inward/record.uri?eid=2-s2.0-85083041328&doi=10.1038%2fs41467-020-15487-3&partnerID=40&md5=62815af0ab658672f4066df030f0b366


DOI: 10.1038/s41467-020-15487-3


Hagos, T.M., Hagos, T.T., Bezabh, H.K., Berhe, G.B., Abrha, L.H., Chiu, S.-F., Huang, C.-J., Su, W.-N., Dai, H., Hwang, B.J.

Resolving the phase instability of a fluorinated ether, carbonate-based electrolyte for the safe operation of an anode-free lithium metal battery

(2020) ACS Applied Energy Materials, 3 (11), pp. 10722-10733. Cited 21 times.

https://www.scopus.com/inward/record.uri?eid=2-s2.0-85096008780&doi=10.1021%2facsaem.0c01767&partnerID=40&md5=6cdc179aa0dc1af0e1a1f2acb04d78f4


DOI: 10.1021/acsaem.0c01767


Sun, H., Liang, P., Zhu, G., Hung, W.H., Li, Y.-Y., Tai, H.-C., Huang, C.-L., Li, J., Meng, Y., Angell, M., Wang, C.-A., Dai, H.

A high-performance potassium metal battery using safe ionic liquid electrolyte

(2020) Proceedings of the National Academy of Sciences of the United States of America, 117 (45), pp. 27847-27853. Cited 39 times.

https://www.scopus.com/inward/record.uri?eid=2-s2.0-85096080165&doi=10.1073%2fpnas.2012716117&partnerID=40&md5=69dfeb7b44ba5835221c4f8fb724a23c


DOI: 10.1073/pnas.2012716117


Ma, Z., Wang, F., Zhong, Y., Salazar, F., Li, J., Zhang, M., Ren, F., Wu, A.M., Dai, H.

Cross-Link-Functionalized Nanoparticles for Rapid Excretion in Nanotheranostic Applications

(2020) Angewandte Chemie - International Edition, 59 (46), pp. 20552-20560. Cited 25 times.

https://www.scopus.com/inward/record.uri?eid=2-s2.0-85090089862&doi=10.1002%2fanie.202008083&partnerID=40&md5=724b3989eb3c5ba058cc6e19b2cac6f5


DOI: 10.1002/anie.202008083


Fenta, F.W., Olbasa, B.W., Tsai, M.-C., Weret, M.A., Zegeye, T.A., Huang, C.-J., Huang, W.-H., Zeleke, T.S., Sahalie, N.A., Pao, C.-W., Wu, S.-h., Su, W.-N., Dai, H., Hwang, B.J.

Electrochemical transformation reaction of Cu-MnO in aqueous rechargeable zinc-ion batteries for high performance and long cycle life

(2020) Journal of Materials Chemistry A, 8 (34), pp. 17595-17607. Cited 73 times.

https://www.scopus.com/inward/record.uri?eid=2-s2.0-85090782339&doi=10.1039%2fd0ta04175k&partnerID=40&md5=99144bdc4cc04e175895966eb0cf12ed


DOI: 10.1039/d0ta04175k


Zhang, X., Wang, Y., Gu, M., Wang, M., Zhang, Z., Pan, W., Jiang, Z., Zheng, H., Lucero, M., Wang, H., Sterbinsky, G.E., Ma, Q., Wang, Y.-G., Feng, Z., Li, J., Dai, H., Liang, Y.

Molecular engineering of dispersed nickel phthalocyanines on carbon nanotubes for selective CO2 reduction

(2020) Nature Energy, 5 (9), pp. 684-692. Cited 279 times.

https://www.scopus.com/inward/record.uri?eid=2-s2.0-85089247026&doi=10.1038%2fs41560-020-0667-9&partnerID=40&md5=17ca0ee952e109406af1945e9699d2c6


DOI: 10.1038/s41560-020-0667-9


Sun, H., Zhu, G., Zhu, Y., Lin, M.-C., Chen, H., Li, Y.-Y., Hung, W.H., Zhou, B., Wang, X., Bai, Y., Gu, M., Huang, C.-L., Tai, H.-C., Xu, X., Angell, M., Shyue, J.-J., Dai, H.

High-Safety and High-Energy-Density Lithium Metal Batteries in a Novel Ionic-Liquid Electrolyte

(2020) Advanced Materials, 32 (26), art. no. 2001741, . Cited 135 times.

https://www.scopus.com/inward/record.uri?eid=2-s2.0-85085562922&doi=10.1002%2fadma.202001741&partnerID=40&md5=d04869b6a35ee7178a61e4aacd4c1ae1


DOI: 10.1002/adma.202001741


Olbasa, B.W., Fenta, F.W., Chiu, S.-F., Tsai, M.-C., Huang, C.-J., Jote, B.A., Beyene, T.T., Liao, Y.-F., Wang, C.-H., Su, W.-N., Dai, H., Hwang, B.J.

High-Rate and Long-Cycle Stability with a Dendrite-Free Zinc Anode in an Aqueous Zn-Ion Battery Using Concentrated Electrolytes

(2020) ACS Applied Energy Materials, 3 (5), pp. 4499-4508. Cited 73 times.

https://www.scopus.com/inward/record.uri?eid=2-s2.0-85087592564&doi=10.1021%2facsaem.0c00183&partnerID=40&md5=7fac021003772eb259de410c1bbf4ce3


DOI: 10.1021/acsaem.0c00183


Zhong, Y., Dai, H.

A mini-review on rare-earth down-conversion nanoparticles for NIR-II imaging of biological systems

(2020) Nano Research, 13 (5), pp. 1281-1294. Cited 92 times.

https://www.scopus.com/inward/record.uri?eid=2-s2.0-85083207831&doi=10.1007%2fs12274-020-2721-0&partnerID=40&md5=2b39ecd8b76a36202939195ea1400a40

DOI: 10.1007/s12274-020-2721-0

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Cao, J., Wang, Q., Rolandi, M., Dai, H.

Aharonov-Bohm interference and beating in single-walled Carbon-nanotube interferometers

(2004) Physical Review Letters, 93 (21), art. no. 216803, . Cited 126 times.

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Nojeh, A., Wong, W.-K., Yieh, E., Fabian Pease, R., Dai, H.

Electron beam stimulated field-emission from single-walled carbon nanotubes

(2004) Journal of Vacuum Science and Technology B: Microelectronics and Nanometer Structures, 22 (6), pp. 3124-3127. Cited 13 times.

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Nojeh, A., Ural, A., Pease, R.F., Dai, H.

Electric-field-directed growth of carbon nanotubes in two dimensions

(2004) Journal of Vacuum Science and Technology B: Microelectronics and Nanometer Structures, 22 (6), pp. 3421-3425. Cited 47 times.

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Qi, P., Javey, A., Rolandi, M., Wang, Q., Yenilmez, E., Dai, H.

Miniature organic transistors with carbon nanotubes as quasi-one- dimensional electrodes

(2004) Journal of the American Chemical Society, 126 (38), pp. 11774-11775. Cited 175 times.

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Wang, D., Chang, Y.-L., Wang, Q., Cao, J., Farmer, D.B., Gordon, R.G., Dai, H.

Surface chemistry and electrical properties of germanium nanowires

(2004) Journal of the American Chemical Society, 126 (37), pp. 11602-11611. Cited 332 times.

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Javey, A., Qi, P., Wang, Q., Dai, H.

Ten- to 50-nm-long quasi-ballistic carbon nanotube devices obtained without complex lithography

(2004) Proceedings of the National Academy of Sciences of the United States of America, 101 (37), pp. 13408-13410. Cited 127 times.

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Nojeh, A., Wong, W.-K., Baum, A.W., Pease, R.F., Dai, H.

Scanning electron microscopy of field-emitting individual single-walled carbon nanotubes

(2004) Applied Physics Letters, 85 (1), pp. 112-114. Cited 17 times.

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Javey, A., Guo, J., Farmer, D.B., Wang, Q., Yenilmez, E., Gordon, R.G., Lundstrom, M., Dai, H.

Self-aligned ballistic molecular transistors and electrically parallel nanotube arrays

(2004) Nano Letters, 4 (7), pp. 1319-1322. Cited 464 times.

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Kam, N.W.S., Jessop, T.C., Wender, P.A., Dai, H.

Nanotube molecular transporters: Internalization of carbon nanotube-protein conjugates into mammalian cells

(2004) Journal of the American Chemical Society, 126 (22), pp. 6850-6851. Cited 1267 times.

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Rolandi, M., Suez, I., Dai, H., Fréchet, J.M.J.

Dendrimer monolayers as negative and positive tone resists for scanning probe lithography

(2004) Nano Letters, 4 (5), pp. 889-893. Cited 34 times.

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Peng, S., Cho, K., Qi, P., Dai, H.

Ab initio study of CNT NO2 gas sensor

(2004) Chemical Physics Letters, 387 (4-6), pp. 271-276. Cited 502 times.

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Javey, A., Guo, J., Paulsson, M., Wang, Q., Mann, D., Lundstrom, M., Dai, H.

High-Field Quasiballistic Transport in Short Carbon Nanotubes

(2004) Physical Review Letters, 92 (10), art. no. 106804, pp. 106804-1-106804-4. Cited 530 times.

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Javey, A., Guo, J., Farmer, D.B., Wang, Q., Wang, D., Gordon, R.G., Lundstrom, M., Dai, H.

Carbon nanotube field-effect transistors with integrated ohmic contacts and high-κ gate dielectrics

(2004) Nano Letters, 4 (3), pp. 447-450. Cited 498 times.

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Chen, R.J., Choi, H.C., Bangsaruntip, S., Yenilmez, E., Tang, X., Wang, Q., Chang, Y.-L., Dai, H.

An Investigation of the Mechanisms of Electronic Sensing of Protein Adsorption on Carbon Nanotube Devices

(2004) Journal of the American Chemical Society, 126 (5), pp. 1563-1568. Cited 493 times.

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Li, Y., Mann, D., Rolandi, M., Kim, W., Ural, A., Hung, S., Javey, A., Cao, J., Wang, D., Yenilmez, E., Wang, Q., Gibbons, J.F., Nishi, Y., Dai, H.

Preferential Growth of Semiconducting Single-Walled Carbon Nanotubes by a Plasma Enhanced CVD Method

(2004) Nano Letters, 4 (2), pp. 317-321. Cited 492 times.

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Liu, J., Fan, S., Dai, H.

Recent Advances in Methods of Forming Carbon Nanotubes

(2004) MRS Bulletin, 29 (4), pp. 244-250+239-240+242. Cited 107 times.

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Dresselhaus, M.S., Dai, H.

Carbon Nanotubes: Continued Innovations and Challenges

(2004) MRS Bulletin, 29 (4), pp. 237-243. Cited 116 times.

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Hjortstam, O., Isberg, P., Söderholm, S., Dai, H.

Can we achieve ultra-low resistivity in carbon nanotube-based metal composites?

(2004) Applied Physics A: Materials Science and Processing, 78 (8), pp. 1175-1179. Cited 116 times.

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Tseng, Y.-C., Xuan, P., Javey, A., Malloy, R., Wang, Q., Bokor, J., Dai, H.

Monolithic Integration of Carbon Nanotube Devices with Silicon MOS Technology

(2004) Nano Letters, 4 (1), pp. 123-127. Cited 130 times.

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Javey, A., Wang, Q., Kim, W., Dai, H.

Advancements in Complementary Carbon Nanotube Field-Effect Transistors

(2003) Technical Digest - International Electron Devices Meeting, pp. 741-744. Cited 46 times.

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Mann, D., Javey, A., Kong, J., Wang, Q., Dai, H.

Ballistic Transport in Metallic Nanotubes with Reliable Pd Ohmic Contacts

(2003) Nano Letters, 3 (11), pp. 1541-1544. Cited 367 times.

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Wang, D., Wang, Q., Javey, A., Tu, R., Dai, H., Kim, H., McIntyre, P.C., Krishnamohan, T., Saraswat, K.C.

Germanium nanowire field-effect transistors with SiO2 and high-κ HfO2 gate dielectrics

(2003) Applied Physics Letters, 83 (12), pp. 2432-2434. Cited 432 times.

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Javey, A., Guo, J., Wang, Q., Lundstrom, M., Dai, H.

Ballistic carbon nanotube field-effect transistors

(2003) Nature, 424 (6949), pp. 654-657. Cited 2763 times.

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Chen, R.J., Bangsaruntip, S., Drouvalakis, K.A., Wong Shi Kam, N., Shim, M., Li, Y., Kim, W., Utz, P.J., Dai, H.

Noncovalent functionalization of carbon nanotubes for highly specific electronic biosensors

(2003) Proceedings of the National Academy of Sciences of the United States of America, 100 (9), pp. 4984-4989. Cited 1415 times.

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Cao, J., Wang, Q., Dai, H.

Electromechanical properties of metallic, quasimetallic, and semiconducting carbon nanotubes under stretching

(2003) Physical Review Letters, 90 (15), art. no. 157601, pp. 157601/1-157601/4. Cited 420 times.

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Qi, P., Vermesh, O., Grecu, M., Javey, A., Wang, Q., Dai, H., Peng, S., Cho, K.J.

Toward large arrays of multiplex functionalized carbon nanotube sensors for highly sensitive and selective molecular detection

(2003) Nano Letters, 3 (3), pp. 347-351. Cited 926 times.

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Kim, W., Javey, A., Vermesh, O., Wang, Q., Li, Y., Dai, H.

Hysteresis caused by water molecules in carbon nanotube field-effect transistors

(2003) Nano Letters, 3 (2), pp. 193-198. Cited 891 times.

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Choi, H.C., Kundaria, S., Wang, D., Javey, A., Wang, Q., Rolandi, M., Dai, H.

Efficient formation of iron nanoparticle catalysts on silicon oxide by hydroxylamine for carbon nanotube synthesis and electronics

(2003) Nano Letters, 3 (2), pp. 157-161. Cited 95 times.

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Cao, J., Wang, Q., Dai, H.

Electromechanical Properties of Metallic, Quasimetallic, and Semiconducting Carbon Nanotubes under Stretching

(2003) Physical Review Letters, 90 (15), p. 4. Cited 43 times.

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Gómez, F.J., Chen, R.J., Wang, D., Waymouth, R.M., Dai, H.

Ring opening metathesis polymerization on non-covalently functionalized single-walled carbon nanotubes

(2003) Chemical Communications, (2), pp. 190-191. Cited 156 times.

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Wang, D., Dai, H.

Low-temperature synthesis of single-crystal germanium nanowires by chemical vapor deposition

(2002) Angewandte Chemie - International Edition, 41 (24), pp. 4783-4786. Cited 205 times.

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Choi, H.C., Kim, W., Wang, D., Dai, H.

Delivery of catalytic metal species onto surfaces with dendrimer carriers for the synthesis of carbon nanotubes with narrow diameter distribution

(2002) Journal of Physical Chemistry B, 106 (48), pp. 12361-12365. Cited 142 times.

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Guo, J., Datta, S., Lundstrom, M., Brink, M., McEuen, P., Javey, A., Dai, H., Kim, H., McIntyre, P.

Assessment of silicon MOS and carbon nanotube FET performance limits using a general theory of ballistic transistors

(2002) Technical Digest - International Electron Devices Meeting, pp. 711-714. Cited 112 times.

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Dai, H.

Carbon nanotubes: Synthesis, integration, and properties

(2002) Accounts of Chemical Research, 35 (12), pp. 1035-1044. Cited 1770 times.

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Ural, A., Li, Y., Dai, H.

Electric-field-aligned growth of single-walled carbon nanotubes on surfaces

(2002) Applied Physics Letters, 81 (18), pp. 3464-3466. Cited 274 times.

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Javey, A., Wang, Q., Ural, A., Li, Y., Dai, H.

Carbon Nanotube Transistor Arrays for Multistage Complementary Logic and Ring Oscillators

(2002) Nano Letters, 2 (9), pp. 929-932. Cited 324 times.

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Choi, H.C., Shim, M., Bangsaruntip, S., Dai, H.

Spontaneous reduction of metal ions on the sidewalls of carbon nanotubes

(2002) Journal of the American Chemical Society, 124 (31), pp. 9058-9059. Cited 703 times.

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Franklin, N.R., Wang, Q., Tombler, T.W., Javey, A., Shim, M., Dai, H.

Integration of suspended carbon nanotube arrays into electronic devices and electromechanical systems

(2002) Applied Physics Letters, 81 (5), pp. 913-915. Cited 249 times.

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Kim, W., Choi, H.C., Shim, M., Li, Y., Wang, D., Dai, H.

Synthesis of Ultralong and High Percentage of Semiconducting Single-walled Carbon Nanotubes

(2002) Nano Letters, 2 (7), pp. 703-708. Cited 194 times.

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Shim, M., Kam, N.W.S., Chen, R.J., Li, Y., Dai, H.

Functionalization of Carbon Nanotubes for Biocompatibility and Biomolecular Recognition

(2002) Nano Letters, 2 (4), pp. 285-288. Cited 874 times.

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Yenilmez, E., Wang, Q., Chen, R.J., Wang, D., Dai, H.

Wafer scale production of carbon nanotube scanning probe tips for atomic force microscopy

(2002) Applied Physics Letters, 80 (12), pp. 2225-2227. Cited 132 times.

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Goldoni, A., Larciprete, R., Gregoratti, L., Kaulich, B., Kiskinova, M., Zhang, Y., Dai, H., Sangaletti, L., Parmigiani, F.

X-ray photoelectron microscopy of the C1s core level of free-standing single-wall carbon nanotube bundles

(2002) Applied Physics Letters, 80 (12), pp. 2165-2167. Cited 38 times.

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Dai, H.

Carbon nanotubes: Opportunities and challenges

(2002) Surface Science, 500 (1-3), pp. 218-241. Cited 1260 times.

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Javey, A., Shim, M., Dai, H.

Electrical properties and devices of large-diameter single-walled carbon nanotubes

(2002) Applied Physics Letters, 80 (6), pp. 1064-1066. Cited 123 times.

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Rolandi, M., Quate, C.F., Dai, H.

A new scanning probe lithography scheme with a novel metal resist

(2002) Advanced Materials, 14 (3), pp. 191-194. Cited 71 times.

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Kong, J., Cao, J., Dai, H., Anderson, E.

Chemical profiling of single nanotubes: Intramolecular p-n-p junctions and on-tube single-electron transistors

(2002) Applied Physics Letters, 80 (1), pp. 73-75. Cited 110 times.

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Javey, A., Kim, H., Brink, M., Wang, Q., Ural, A., Guo, J., Mcintyre, P., Mceuen, P., Lundstrom, M., Dai, H.

High-κ dielectrics for advanced carbon-nanotube transistors and logic gates

(2002) Nature Materials, 1 (4), pp. 241-246. Cited 924 times.

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Chen, R.J., Franklin, N.R., Kong, J., Cao, J., Tombler, T.W., Zhang, Y., Dai, H.

Molecular photodesorption from single-walled carbon nanotubes

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Capillary force lithography

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Full and modulated chemical gating of individual carbon nanotubes by organic amine compounds

(2001) Journal of Physical Chemistry B, 105 (15), pp. 2890-2893. Cited 358 times.

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Alkaline metal-doped n-type semiconducting nanotubes as quantum dots

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Gating individual nanotubes and crosses with scanning probes

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Electrical measurements of individual semiconducting single-walled carbon nanotubes of various diameters

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Nanotube molecular wires as chemical sensors

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Carbon nanotube arrays on silicon substrates and their possible application

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Terabit-per-square-inch data storage with the atomic force microscope

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Gate-controlled superconducting proximity effect in carbon nanotubes

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Large Scale CVD Synthesis of Single-Walled Carbon Nanotubes

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Integrated nanotube circuits: Controlled growth and ohmic contacting of single-walled carbon nanotubes

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Self-oriented regular arrays of carbon nanotubes and their field emission properties

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Carbon nanotubes as AFM tips: Measuring DNA molecules at the liquid/solid interface

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Chemical vapor deposition of methane for single-walled carbon nanotubes

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