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1984：貴州大學(xué)化學(xué)系，學(xué)士學(xué)位
1989：重慶大學(xué)應(yīng)用化學(xué)系，碩士學(xué)位
1997：江蘇大學(xué)，博士學(xué)位
1999：江南大學(xué)，博士后
2005：CHONBUK NATIONAL UNIVERSITY 高訪
2007：Latrobe University，進(jìn)修
2009：Stanford University, 高訪 

1989-1994：中國(guó)科學(xué)院地球化學(xué)研究所，助理研究員
1999-2002：上海交通大學(xué)化學(xué)化工學(xué)院，副教授

2002-至今：上海交通大學(xué)化學(xué)化工學(xué)院，教授 

1.超臨界流體中的過程工程基礎(chǔ)理論及其應(yīng)用
2.石墨烯等納米材料及其復(fù)合物的制備、性能和應(yīng)用

3.柔性超級(jí)電容器、柔性電熱器件等可穿戴電子器件構(gòu)建
4.天然生物活性物質(zhì)的分離純化

5. 難溶藥物超細(xì)化、微納米藥物包埋

長(zhǎng)期從事超臨界流體+的基礎(chǔ)理論和應(yīng)用基礎(chǔ)及其應(yīng)用研究工作,研究成果涵蓋超臨界流體的綠色化學(xué)和化工過程,納米功能材料的制備和應(yīng)用，天然活性物質(zhì)的分離純化等。近來主持了國(guó)家重點(diǎn)研發(fā)計(jì)劃政府間國(guó)際科技創(chuàng)新合作重點(diǎn)專項(xiàng)課題，國(guó)家863項(xiàng)目、國(guó)家自然科學(xué)基金面上項(xiàng)目、上海市科委納米專項(xiàng)項(xiàng)目、上海市經(jīng)委高新技術(shù)項(xiàng)目、上海交大醫(yī)工交叉項(xiàng)目以及企業(yè)委托開發(fā)項(xiàng)目近30項(xiàng)，獲國(guó)家發(fā)明專利20余件，發(fā)表學(xué)術(shù)論文120余篇。

2024

1. Qixuan Xiang, Guanjie Zhao, Tao Tang, Hao Zhang, Zhiyuan Liu, Xianglong Zhang, Yaping Zhao,* and Huijun Tan*，All-Carbon Piezoresistive Sensor: Enhanced Sensitivity and Wide Linear Range via Multiscale Design for Wearable Applications，Adv. Funct. Mater. 2024, 2418706.

2. Hao Zhang, Qixuan Xiang, Zhiyuan Liu, Xianglong Zhang, Yaping Zhao* & Huijun Tan*，Supercritical mechano-exfoliation process，Nature Communications | (2024) 15:9329.
3. Zhiyuan Liu,Qixuan Xiang, Hao Zhang, Xianglong Zhang, Huijun Tan* and Yaping Zhao*, Scalable complete conversion of MgCo2O4 by mechanochemistry for high-performance supercapacitors,Inorg. Chem. Front., 2024,11, 7886

4. Rahul Navik, Huijun Tan,* Hao Zhang, Liyun Shi, Jia Li, and Yaping Zhao*, High-Throughput and Scalable Exfoliation of Large-Sized Ultrathin 2D Materials by Ball-Milling in Supercritical Carbon Dioxide, Small Methods 2024, 8, 2301334
5. Qixuan Xiang 1, Jingyi Wang ,, Kan Tao , Hu Huang , Yaping Zhao  , Jinping Jia , Huijun Tan ,* and Huailong Chang*,Optimization of Phenolic-Enriched Extracts from Olive Leaves via Ball Milling-Assisted Extraction Using Response Surface Methodology, Molecules 2024, 29, 3658.

6. Zhiyuan Liu, Qixuan Xiang, Hao Zhang, Xianglong Zhang, Hunjun Tan **, Yaping Zhao *,Supercritical CO2-assisted solvothermal synthesis and characterization of MgCo2O4 nanospheres for high-performance capacitance, Ceramics International 50 (2024) 7789–7797.

7. Qixuan Xiang , Hao Zhang , Zhiyuan Liu, Yaping Zhao *, Huijun Tan *， Engineered structural carbon aerogel based on bacterial Cellulose/Chitosan and graphene Oxide/Graphene for multifunctional piezoresistive sensor. Chemical Engineering Journal 480 (2024) 147825

8. Mulugeta Guta , Huijun Tan *, Yaping Zhao *，Optimization of supercritical CO2 extraction of incensole-enriched oil from Boswellia papyrifera resin using response surface methodology. The Journal of Supercritical Fluids 205 (2024) 106154.

9. Mulugeta Guta, Huijun Tan *, Yaping Zhao *, Selectively extracting oleoresin from Boswellia papyrifera frankincense resin by sub- and supercritical CO2 processes,The Journal of Supercritical Fluids 205 (2024) 106135

2023

1. Rahul Navik, Huijun Tan*, Hao Zhang , Zhiyuan Liu, Qixuan Xiang, Liyun Shi, Shiming Lu, Yaping Zhao*, Scalable production of polyamide-6/graphene composites with enhanced electromagnetic shielding and thermal conductivity. Chemical Engineering Journal 471 (2023) 144445

2022

1. Rahul Navik, Huijun Tan, Zhiyuan Liu, Qixuan Xiang, and Yaping Zhao*, Green Approach Toward In Situ Exfoliation and Enhanced Compatibility To Obtain Highly Conductive Polypropylene/Graphene Composites. ACS Sustainable Chem. Eng. 2022, 10, 12975?12984. (Front Cover).

2. Zhiyuan Liu a , Rahul Navik a , Hunjun Tan a , Qixuan Xiang a , Wahyudiono b , Motonobu Goto b , Rodolfo Morales Ibarra b,c , Yaping Zhao a,* Graphene-based materials prepared by supercritical fluid technology and its application in energy storage，The Journal of Supercritical Fluids 188 (2022) 105672.

3. Qixuan Xiang, Boan Zhong, Huijun Tan, Rahul Navik, Zhiyuan Liu, and Yaping Zhao*,Improved Dispersibility of Graphene in an Aqueous Solution by Reduced Graphene Oxide Surfactant: Experimental Verification and Density Functional Theory Calculation, Langmuir 2022, 38, 8222?8231.

4. Huijun Tan , Rahul Navik , Zhiyuan Liu , Qixuan Xiang , Yaping Zhao * Preparation of high load carbon fiber/graphene/bacterial cellulose/ polyaniline electrodes facilitated by plasma towards high capacitive supercapacitors,Chemical Physics Letters 802 (2022) 139741.

5. Huijun Tan, Rahul Navik, Zhiyuan Liu, Qixuan Xiang, Yaping Zhao *, Scalable massive production of defect-free few-layer graphene by ball-milling in series with shearing exfoliation in supercritical CO2, The Journal of Supercritical Fluids 181 (2022) 105496

6. Rahul Navik , Huijun Tan , Zhiyuan Liu , Qixuan Xiang , Yaping Zhao *, Scalable production of high-quality exfoliated graphene using mechanical milling in conjugation with supercritical CO2,FlatChem 33 (2022) 100374.

7. Qixuan Xiang, Rahul Navik, Huijun Tan, Yaping Zhao?,Synthesis of oxidation-resistance copper nanowires-formate for highperformance transparent conductive electrod,Journal of Alloys and Compounds 914 (2022) 165265.

2021

1. Huijun Tan, Ding Xiao, Rahul Navik, and Yaping Zhao*, Facile Fabrication of Polyaniline/Pristine Graphene?Bacterial Cellulose Composites as High-Performance Electrodes for Constructing Flexible All-Solid-State Supercapacitors,ACS Omega 2021, 6, 11427?11435

2. Wahyudiono a , Shota Kawai a , Mardiansyah Mardis a , Siti Machmudah b , Hideki Kanda a , Yaping Zhao c , Motonobu Goto a, *Bimetallic nanoparticle generation from Au  TiO2 film by pulsed laser ablation in an aqueous medium,Alexandria Engineering Journal (2021) 60, 2225–2234

3. Kai Wang1 | Huijun Tan1 | Yingying Lin2 | Wahyu Diono2 | Yaping Zhao1 | Motonobu Goto, Direct current gas–liquid phase pulsed plasma polymerization of polypyrrole under atmospheric pressure,Plasma Process Polym. 2021;18:e2000186

4. Rahul Navik, Xiao Ding, Tan Huijun, and Yaping Zhao*,Ind. Eng. Chem. Res. Facile Synthesis of Highly Oxidation Stable Nanosilver-Coated Copper Nanowires for Transparent Flexible Electrodes,Ind. Eng. Chem. Res. 2021, 60, 263?272

5. Wahyu Diono 1 , Siti Machmudah 2 , Hideki Kanda 1 , Yaping Zhao 3 and Motonobu Goto 1,*Pulsed Discharge Plasma in High-Pressure Environment for Water Pollutant Degradation and Nanoparticle Synthesis,Plasma 2021, 4, 309–331.

2020

1. Huijun Tan, Ding Xiao, Rahul Navik, Motonobu Goto, and Yaping Zhao,* Fabrication of graphene/polyaniline nanofiber multilayer composite for supercapacitor electrodes via layer-by-layer vacuum filtration，J Mater Sci: Mater Electron，（2020）//doi.org/10.1007/s10854-020-04400-9

2.Ding Xiao, Rahul Navik, Yanzhe Gai, Huijun Tan, and Yaping Zhao*, Maillard Reaction-Controlled Synthesis of Ultrathin Silver Nanowires and Fabrication of Transparent Conductive Electrodes with Low Haze；Ind. Eng. Chem. Res. 2020, 59, 13572?13577. (Journal Cover)

3. Rahul Navik, Xiao Ding, Tan Huijun, Yanzhe Gai, Yaping Zhao? , Fabrication of copper nanowire and hydroxylated graphene hybrid with highconductivity and excellent stability, Applied Materials Today 19 (2020) 100619.

4. Rahul Navik, Ding Xiao, Yanzhe Gai, Huijun Tan, Yaping Zhao?, One-pot synthesis of copper nanowire-graphene composite with excellent stability and electrical performance for flexible electrodes, Applied Surface Science 527 (2020) 146694.

5. Ding Xiao, Rahul Navik, Huijun Tan, Yanzhe Gai, Yaping Zhao?, Sorting purified silver nanowires using supercritical carbon dioxideelutriation coupled with membrane for fabricating flexible andtransparent conductive electrodes, J. of Supercritical Fluids 164 (2020) 104915.

6. Jiaqi Tian, Sameera Shafi, Huijun Tan, Yaping Zhao?, Mechanical and thermal-insulating performance of silica aerogel enhanced jointly with glass fiber and fumed silica by a facile compressing technique, Chemical Physics Letters 739 (2020) 136950.

7. Jianing Wanga, Huijun Tana, Ding Xiaoa, Rahul Navika, Motonobu Gotob, Yaping Zhaoa,?Preparation of waterborne graphene paste with high electrical conductivity, Chemical Physics Letters 741 (2020) 137098.

8. Sameera Shafi,  Yaping Zhao*, Superhydrophobic, enhanced strength and thermal insulation silica aerogel/glass fiber felt based on methyltrimethoxysilane precursor and silica gel impregnation, Journal of Porous Materials (2020) 27:495–502.

9. Motoki Yamada, Wahyudiono, Siti Machmudah, Hideki Kanda, Yaping Zhao, and Motonobu Goto*, Atmospheric-Pressure Pulsed Discharge Plasma in a Slug Flow Reactor System for the Synthesis of Gold Nanoparticles, ACS Omega 2020, 5, 28, 17679–17685.

2019

1. Ningning Song, Huijun Tan, Yaping Zhao*, Carbon fiber-bridged polyaniline/graphene paper electrode for a highly foldable all-solid-state supercapacitor, Journal of Solid State Electrochemistry (2019) 23:9–17.

2. Yanzhe Gai, Ding Xiao, Rahul Navik, Huijun Tan, Sameera Shafi, Yaping Zhao*，Isolation of graphene and graphite by supercritical CO2 elutriation technique: CFD simulation and experimental，Powder Technology 352 (2019) 478–487.

3. Ningning Song, Yue Wu, Wucong Wang, Ding Xiao, Huijun Tan, Yaping Zhao*, Layer-by-layer in situ growth flexible polyaniline/graphene paper wrapped by MnO2 nanoflowers for all-solid-state supercapacitor. Materials Research Bulletin 111 (2019) 267–276.

4. Sameera Shafi, Rahul Navik, Xiao Ding, Yaping Zhao*, Improved heat insulation and mechanical properties of silica aerogel/glass fiber composite by impregnating silica gel, Journal of Non-Crystalline Solids 503–504 (2019) 78–83.

5. Sameera Shafi, Jiaqi Tian, Rahul Navik, Yanzhe Gai, Xiao Ding, Yaping Zhao*, Fume silica improves the insulating and mechanical performance of silica aerogel/glass fiber composite, The Journal of Supercritical Fluids 148 (2019) 9–15.

2018

1. Wucong Wang, Yanzhe Gai, Ding Xiao & Yaping Zhao*, A facile and general approach for production of nanoscrolls with high-yield from two-dimensional nanosheets, Scientific Reports, (2018) 8:15262.

2. Rahul Navik, Yanzhe Gai, Wucong Wang, Yaping Zhao*, Curcumin-assisted ultrasound exfoliation of graphite to graphene in ethanol, Ultrasonics - Sonochemistry 48 (2018) 96–102

3. Iftikhar, Huijun Tan, Yaping Zhao*, Enriching β-carotene from fatty acid esters mixture of palm oil using supercritical CO2 in the silica-packed column, Journal of CO? Utilization 26 (2018) 93–97.

4. Yanzhe Gai, Wucong Wang, Ding Xiao, Huijun Tan, Minyan Lin, and Yaping Zhao*, Exfoliation of Graphite into Graphene by a Rotor?Stator in Supercritical CO2: Experiment and Simulation, Ind. Eng. Chem. Res. 2018, 57, 8220?8229.

5. Peng Guo,* Jing Huang, Yaping Zhao, Charles R. Martin, Richard N. Zare,* and Marsha A. Moses Nanomaterial Preparation by Extrusion through Nanoporous Membranes, Small 2018, 1703493.

6. Ningning Song, Wucong Wang, Yue Wu, Ding Xiao, Yaping Zhao*, Fabrication of highly ordered polyaniline nanocone on pristine graphene for high-performance supercapacitor electrodes, Journal of Physics and Chemistry of Solids 115 (2018) 148–155.

7. Ding Xiao, Wucong Wang, Yanzhe Gai & Yaping Zhao*, Graphene-catalyzed formation of C≡N bonds via cleavage of C-C and N-O bonds in ethanol and nitrate under room temperature, Scientific Reports (2018) 8:1750.

8. Wucong Wang, Yanzhe Gai, Ningning Song, Ding Xiao, Huijun Tan, and Yaping Zhao*, Highly Efficient Production of Graphene by an Ultrasound Coupled with a Shear Mixer in Supercritical CO2. Ind. Eng. Chem. Res. 2018, 57, 16701?16708 (Journal cover).

9. Mengmeng Cai, Sameera Shafi, Yaping Zhao*, Preparation of compressible silica aerogel reinforced by bacterial cellulose using tetraethylorthosilicate and methyltrimethoxylsilane co-precursor, Journal of Non-Crystalline Solids 481 (2018) 622–626.

10. Minyan Lin, Yanzhe Gai, Ding Xiao, Huijun Tan, Yaping Zhao*, Preparation of pristine graphene paste for screen printing patterns with high conductivity. Chemical Physics Letters 713 (2018) 98–104.

11. Yanzhe Gai, Wucong Wang, Ding Xiao, Huijun Tan, Minyan Lin and Yaping Zhao*, Reversible conversion between graphene nanosheets and graphene nanoscrolls at room temperature. RSC Adv., 2018, 8, 9749.

12. Farnaz Alidad, Rahul Navik, Yanzhe Gai, Yaping Zhao*, Production of pristine graphene quantum dots from graphite by a shearmixer in supercritical CO2. Chemical Physics Letters 710 (2018) 64–69

13. Yue Wu, Ningning Song, Wucong Wang, Yaping Zhao*, Synthesis of graphene/epoxy resin composite via 1,8-diaminooctane by ultrasonication approach for corrosion protection, Ultrasonics - Sonochemistry 42 (2018) 464–470.

14. Yanzhe Gai, Wucong Wang, Ding Xiao, Yaping Zhao*, Ultrasound coupled with supercritical carbon dioxide for exfoliation of graphene: Simulation and experiment, Ultrasonics - Sonochemistry 41 (2018) 181–188.

2017

1. Sining Li, Yaping Zhao*, Preparation of zein nanoparticles by using solution-enhanced dispersion with supercritical CO2 and elucidation with computational fluid dynamics, International Journal of Nanomedicine 2017:12 3485–3494.

2. Sining Li, Yaping Zhao*, Preparation of Melatonin-Loaded Zein Nanoparticles using Supercritical CO2 Antisolvent and in vitro Release Evaluation. International Journal of Food Engineering. 2017; 20170239

3. Wenqi Liu, Ningning Song, Yue Wu, Yanzhe Gai, Yaping Zhao*, Preparation of layer-aligned graphene composite film with enhanced thermal conductivity. Vacuum 138 (2017) 39-47.

4. Fatemeh Zabihi, Mehrdad Mirzajanzadeh, Jingfu Jia, Yaping Zhao*, Measurement and calculation of solubility of quinine in supercritical carbon dioxide. Chinese Journal of Chemical Engineering 25 (2017) 641–645.

5. Yahui Gao, Wucong Wang, Ningning Song, Yanzhe Gai, Yaping Zhao*, Fabrication of highly flexible transparent conductive film with a sandwich-structure consisted of graphene/silver nanowire/graphene. J Mater Sci: Mater Electron (2017) 28:17031–17037.

6. Iftikhar, Huijun Tan, Yaping Zhao*，Enrichment of b-carotene from palm oil using supercritical carbon dioxide pretreatment-solvent extraction technique, LWT - Food Science and Technology 83 (2017) 262-266

7. Sining Li, Yaping Zhao*, Preparation of zein nanoparticles by using solution-enhanced dispersion with supercritical CO2 and elucidation with computational fluid dynamics，International Journal of Nanomedicine 2017:12 3485–3494

2016

1. Ningning Song , Jinfu Jia , Wucong Wang , Yahui Gao , Yaping Zhao*，Green production of pristine graphene using fluid dynamic force in supercritical CO2，Chemical Engineering Journal 298 (2016) 198–205

2. Jingfu Jia, Yanzhe Gai, Wucong Wang, Yaping Zhao*, Green synthesis of biocompatiable chitosan–graphene oxide hybrid nanosheet by ultrasonication method,  Ultrasonics Sonochemistry 32 (2016) 300–306

3. Jingfu Jia, Ningning Song, Yanzhe Gai, Lin Zhang, Yaping Zhao*, Release-controlled curcumin proliposome produced byultrasound-assisted supercritical antisolvent method, J. of Supercritical Fluids 113 (2016) 150–157.

2015

1. Yuanpeng Leng, Yahui Gao, Wucong Wang, Yaping Zhao*, Continuous supercritical solvothermal synthesis ofTiO2–pristine-graphene hybrid as the enhanced photocatalyst, J. of Supercritical Fluids 103 (2015) 115–121

2. Jingfu Jia, Wucong Wang, Yahui Gao, Yaping Zhao*, Controlled morphology and size of curcumin using ultrasound in supercritical CO2 antisolvent, Ultrasonics Sonochemistry 27 (2015) 389–394

3. Fatemeh Zabihi, Mu Yang, Yuanpeng Leng, Yaping Zhao*, PLGA–HPMC nanoparticles prepared by a modified supercriticalanti-solvent technique for the controlled release of insulin, J. of Supercritical Fluids 99 (2015) 15–22

4. Jing-fu Jia, Fatemeh Zabihi, Ya-hui Gao, and Ya-ping Zhao*, Solubility of Glycyrrhizin in Supercritical Carbon Dioxide with and without Cosolvent,J. Chem. Eng. Data 2015, 60, 6, 1744–1749.

5.Gang Yang1,Yaping Zhao2,Yongtai Zhang1,Beilei Dang1,Ying Liu1,Nianping Feng1, Enhanced oral bioavailability of silymarin using liposomes containing a bile salt: preparation by supercritical fluid technology and evaluation in vitro and in vivo, International Journal of anomedicine 2015:10 6633–6644.

6. Fatemeh Zabihi, Na Xin, Jingfu Jia, Tao Cheng and Yaping Zhao*, Preparation of Nano-curcumin with Enhanced Dissolution Using Ultrasonic-Assisted Supercritical Anti-solvent Technique, Int. J. Food Eng. 2015; 11(5): 609–617.

2014
1. Wucong Wang, Yan Wang, Yahui Gao, Yaping Zhao*, Control of number of graphene layers using ultrasound insupercritical CO2and their application in lithium-ion batteries, J. of Supercritical Fluids 85 (2014) 95– 101

2. Yuanpeng Leng, Wucong Wang, Lin Zhang, Fatemeh Zabihi, Yapin Zhao*,Fabrication and photocatalytical enhancement of ZnO-graphene hybrid using a continuous solvothermal technique,  J. of Supercritical Fluids 91 (2014) 61–67

3. Fatemeh Zabihi, Na Xin Jingfu Jia Tao Chen, and Yaping Zhao*, High Yield and High Loading Preparation of Curcumin?PLGA Nanoparticles Using a Modified Supercritical Antisolvent Technique, Ind. Eng. Chem. Res. 2014, 53, 6569?6574.

4. Yahui Gao, Wen Shi, Wucong Wang, Yuanpeng Leng, and Yaping Zhao*, Inkjet Printing Patterns of Highly Conductive Pristine Graphene on Flexible Substrates, Ind. Eng. Chem. Res. 2014, 53, 16777?16784.

5. Wen Shi, Yahui Gao, Shaodi Song, and Yaping Zhao*, One-Pot Conversion of Bio-oil to Diesel- and Jet-Fuel-Range Hydrocarbons in Supercritical Cyclohexane, Ind. Eng. Chem. Res. 2014, 53, 11557-11565.

6. Fatemeh Zabihi, Na Xin, Sining Li, Jingfu Jia, Tao Cheng, Yaping Zhao*, Polymeric coating of fluidizing nano-curcumin via anti-solventsupercritical method for sustained release, J. of Supercritical Fluids 89 (2014) 99–105.

7. Yahui Gao, Wen Shi, Wucong Wang, Yan Wang, Yaping Zhao*, Zhihong Lei,and Rongrong Miao, Ultrasonic-Assisted Production of Graphene with High Yield in Supercritical CO2 and Its High Electrical Conductivity Film, Ind. Eng. Chem. Res. 2014, 53, 2839.2845.

2013

1. Wen Shi, Jingfu Jia, Yahui Gao, Yaping Zhao*，Influence of ultrasonic pretreatment on the yield of bio-oil prepared by thermo-chemical conversion of rice husk in hot-compressed water，Bioresource Technology, Bioresource Technology 146 (2013) 355–362
2. Wen Shi, Yahui Gao, Guohui Yang, Yaping Zhao*, Conversion of cornstalk to bio-oil in hot-compressed water: Effects of the ultrasonic pretreatment on the yield and chemical composition of bio-oil, carbon balance, and energy recovery, Journal of Agricultural and Food Chemistry, J. Agric. Food Chem. 2013, 61, 7574.7582
3. Zhiqiang Mao,Sining Li, Yuanpeng Leng, Yaping Zhao*, Controlled morphology and size of ZnO nanocrystals using the continuous hot compressed water technique, J. of Supercritical Fluids 79 (2013) 268–2732.

4. Wen Shi, Sining Li, Jingfu Jia, and Yaping Zhao*, Highly Efficient Conversion of Cellulose to Bio-Oil in Hot-Compressed Water with Ultrasonic Pretreatment, Ind. Eng. Chem. Res. 2013, 52, 586-593.

5. W. Shi , S. Li  , H. Jin  , Y. Zhao* & W. Yu<span font-size:33.6px;font-weight:700;"="" style=";padding: 0px;color: rgb(51, 51, 51)">,The Hydrothermal Liquefaction of Rice Husk to Bio-crude Using Metallic Oxide Catalysts,Energy Sources, Part A: Recovery, Utilization, and Environmental Effects, 2013 (35), 22:2149-2155.

6. Yan Wang,? Chenghong Zhou,? Wucong Wang,? and Yaping Zhao?,* Preparation of Two imensional Atomic Crystals BN, WS2, and MoS2 by Supercritical CO2 Assisted with Ultrasound
Ind. Eng. Chem. Res. 2013, 52, 4379?4382.

獲國(guó)家發(fā)明專利20余件:
1.  ZL 201210285100.4, 一種利用超聲波預(yù)處理生物質(zhì)提高液化生物油產(chǎn)率的方法
2.  ZL 201310536104.X,  一種連續(xù)快速制備石墨烯-無機(jī)納米復(fù)合材料的方法
3.  ZL 201310733495.4，利用超聲波輔助超臨界抗溶劑制備納米姜黃素顆粒的方法
4.  ZL201210226272.4，  利用超臨界流體制備二維原子晶體新材料的方法
5.  ZL201210001582.6，  一種超臨界二氧化碳剝離制備大尺度石墨烯的方法

6.  ZL201210008133.4，一種超聲波輔助的壓縮CO2流體制備石墨烯的方法

7.  ZL201710600318.7，碳-碳鍵斷裂合成氰化物并從二維材料制備一維卷材的方法

8.  ZL2019109929266, 一種制備超高長(zhǎng)徑比銅納米線/石墨烯復(fù)合物的方法

9.  ZL201910992923.2, 一種制備超細(xì)超高長(zhǎng)經(jīng)比銀納米線的方法

10.ZL201910993249.X, 一種銀納米線的純化方法

11. ZL 2022 1 0208797.9, 一種石墨烯的可規(guī)?；苽浞椒?/p>

12. ZL 2022 1 0208230.1, 一種石墨烯/PA6復(fù)合材料的制備方法

The Journal of Supercritical Fluids 期刊副主編，中國(guó)化工學(xué)會(huì)會(huì)員，中國(guó)化學(xué)工程學(xué)會(huì)超臨界流體專業(yè)委員會(huì)委員, 美國(guó)ACS和AIChE會(huì)員

1、本科生：分離工程; 新生研討課：奇妙的超臨界流體世界

2、研究生：超臨界流體技術(shù)原理和應(yīng)用 

招收博士后