Abstract
Polymer and ceramic-based hollow nanofibers (NFs) are gaining a lot of attention in the scientific community for a variety of applications in the areas of sensing, environment, energy, and health. They possess various properties such as large surface area, high porosity, and sensitivity. The ceramic and polymer-based hollow NFs exhibit higher space charge modulation depth, larger electronic transport properties, and shorter ion diffusion length. A lot of work has been done on using ceramic-based hollow NFs while in the case of polymer-based hollow NFs, no significant research has been conducted to date. This chapter discusses the different types of hollow NFs produced by electrospinning and their application in various fields. The area of NF fabrication is still advancing and a lot more research can be done efficiently to explore more of their applications in various sectors.
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References
Sun B, Long YZ, Zhang HD, Li MM, Duvail JL, Jiang XY, Yin HL (2014) Prog Polym Sci 39:862–889
Huang ZM, Zhang YZ, Kotaki M, Ramakrishna S (2003) Comp Sci Tech 63:2223–2253
Doshi J, Reneker DH (1995) J Electrost 35:151–160
Reneker DH, Chun I (1996) Nanotech 7:216
Fong H, Chun I, Reneker D (1999) Polym 40:4585–4592
Dzenis Y (2004) Sci 304:1917–1919
Greiner A, Wendorff JH (2007) Angew Chem Int Ed 46:5670–703
Kim JS, Reneker DH (1999) Polym Compos 20:124–131
Bognitzki M, Czado W, Frese T, Schaper A, Hellwig M, Steinhart M, Greiner A, Wendorff JH (2001) Adv Mater 13:70–72
Homaeigohar S, Dai T, Elbahri M (2013) J Colloid Interf Sci 406:86–93
Homaeigohar S, Disci-Zayed D, Dai T, Elbahri M (2013) Bioinspired Biomim Nanobiomater 2:186–193
Homaeigohar S, Elbahri M (2014) Mater 7:1017–1045
Homaeigohar S, Zillohu AU, Abdelaziz R, Hedayati MK, Elbahri M (2016) Mater 9:848
Homaeigohar SS, Buhr K, Ebert K (2010) J Membr Sci 365:68–77
Homaeigohar SS, Elbahri M (2012) J Colloid Interf Sci 372:6–15
Fang X, Reneker DJ (1997) Macromol Sci B 36:169–173
Fong H, Reneker DHJ (1999) Polym Sci Polym Phys 37:3488–3493
Beachley V, Wen X (2010) Prog Polym Sci 35:868–892
He JH, Wan YQ, Yu JY (2004) Int. J. Nonlinear Sci Numer Simul 5:253–262
Huang Z-M, Zhang Y-Z, Kotaki M, Ramakrishna S (2003) Compos Sci Technol 63:2223–2253
Frenot A, Chronakis IS (2003) Curr Opin Colloid Interf Sci 8:64–75
Li D, **a Y (2004) Adv Mater 16:1151–1170
Deitzel JM, Kleinmeyer J, Harris D, Tan NCB (2004) Polymer 42:261–272
Koombhongse S, Liu W, Reneker DH (2001) J Polym Sci Polym Phys Ed 39:2598–2606
**nhua Z, Kim K, Shaofeng R, Hsiao BS, Chu B (2002) Polym 43:4403–4412
**a X, Dong X, Wei Q, Cai Y, Lu K (2012) Express Polym Lett 6:169–176
Niu H, Lin T (2012) J Nanomater 2012:12
Shadi L, Karimi M, Ramazani S, Entezami AA (2014) J Mater Sci 49:4844–4854
Ding Y, Hou H, Zhao Y, Zhu Z, Fong H (2016) Prog Polym Sci 61:67–103
RodrÃguez K, Gatenholm P, Renneckar S (2012) Cellulose 19:1583–1598
Mokhena T, Jacobs V, Luyt A (2015) Express Polym Lett 9:839–880
Wei S, Zhou M, Du W (2011) Sens Actuat B Chem 160:753–759
Qi R, Guo R, Shen M, Cao X, Zhang L, Xu J, Yu J, Shi X (2010) J Mater Chem 20:10622–10629
Zander NE, Strawhecker KE, Orlicki JA, Rawlett AM, Beebe TP (2011) J Phys Chem B 115:12441–12447
Liu P, Zhu Y, Ma J, Yang S, Gong J, Xu J (2013) Colloids Surf A 436:489–494
Hou H, Shang M, Wang L, Li W, Tang B, Yang W (2015) Sci Rep 5:15228
Zhang H, Zhao C, Zhao Y, Tang G, Yuan X (2010) Sci China Chem 53:1246–1254
Huang J, You T (2013) Advances in NFs. InTech, Rijeka, Croatia
Zhou FL, Gong RH, Porat I (2009) J Mater Sci 44:5501–5508
Nurwaha D, Han W, Wang XJ (2013) Eng Fibers Fabr 8:42–49
Chen H, Wang N, Di J, Zhao Y, Song Y, Jiang L (2010) Langmuir 26:11291–11296
Zhang X, Gao X, Jiang L, Qin J (2012) Langmuir 28:10026–10032
Zhao T, Liu Z, Nakata K, Nishimoto S, Murakami T, Zhao Y, Jiang Fujishima L (2010) J Mater Chem 20:5095–5099
Liu Y, Ma Q, Yang M, Dong X, Yang Y, Wang J, Yu W, Liu G (2016) Chem Eng J 284:831–840
Lee GH, Song J-C, Yoon K-B (2010) Macromol Res 18:571–576
Pakravan M, Heuzey M-C, Ajji A (2012) Biomacromol 13:412–421
Choi SJ, Chattopadhyay S, Kim JJ, Kim S-J, Tuller HL, Rutledge GC, Kim I-D (2016) Nanoscale 8:9159–9166
Chang W, Xu F, Mu X, Ji L, Ma G, Nie J (2013) Mater Res Bull 48:2661–2668
Zhang J, Choi SW, Kim SS (2011) J Solid State Chem 184:3008–3013
Lee BS, Son SB, Park KM, Lee G, Oh KH, Lee SH, Yu WR (2012) ACS Appl Mater Interf 4:6702–6710
Lee BS, Yang HS, Jung H, Mah SK, Kwon S, Park JH, Lee KH, Yu WR, Doo SG (2015) Eur Polym J 70:392–399
Kaerkitcha N, Chuangchote S, Sagawa T (2016) Nanoscale Res Lett 11:186
Ning J, Yang M, Yang H, Xu Z (2016) Mater Des 109:264–269
Lee BS, Jeon SY, Park H, Lee G, Yang HS, Yu WR (2013) Sci Rep 4:6758
Loscertales IG, Barrero A, Márquez M, Spretz R, Velarde-Ortiz R, Larsen G (2004) J Am Chem Soc 126:5376–5377
Qian W, Yu DG, Li Y, Liao YZ, Wang X, Wang L (2014) Int J Mol Sci 15:774–786
Liu W, Ni C, Chase DB, Rabolt JF (2013) ACS Macro Lett 2:466–468
Yu DG, Li XY, Wang X, Yang JH, Bligh S, Williams GR (2015) ACS Appl Mater Interf 7:18891–18897
Khalf A, Singarapu K, Madihally SV (2015) React Funct Polym 90:36–46
Zanjani JSM, Okan BS, Letofsky-Papst I, Yildiz M, Menceloglu YZ (2015) Eur Polym J 62:66–76
Zanjani JSM, Saner Okan B, Menceloglu YZ, Yildiz MJ (2015) Reinf Plast Compos 34:1273–1286
Vonch J, Yarin A, Megaridis CJ (2007) Undergrad Res 1
Samanta A, Nandan B, Srivastava RK (2016) J Colloid Interf Sci 471:29–36
Wei J, Shi H, Zhou M, Song D, Zhang Y, Pan X, Zhou J, Wang T (2015) Appl Catal 499:101–108
Elahi F, Lu W, Guo** G, Khan F (2013) Bioeng Biomed Sci J 3:1–14
Samanta A, Takkar S, Kulshreshtha R, Nandan B, Srivastava RK (2016) Mater Sci Eng 69:685–691
Pal J, Singh S, Sharma S, Kulshreshtha R, Nandan B, Srivastava RK (2016) Mater Lett 167:288–296
Wang W, Zhang L, Tong S, Li X, Song W (2009) Biosens Bioelectron 25:708–714
Buso D, Post M, Cantalini C, Mulvaney P, Martucci A (2008) Adv Funct Mater 18:3843
Kim YJ, Lee MH, Kim HJ, Lim G, Choi YS, Park NG, Kim K, Lee WI (2009) Adv Mater 21:1
Liu SW, Yu JG, Mann S (2009) Nanotechnology 20:325606
Song XF, Gao L (2007) J Phys Chem C 111:8180
Liu B, Nakata K, Sakaie M, Saito H, Ochiai T, Murakmi T, Takagi K, Fujishima A (2011) Langmuir 27:8500–8508
Iskandar F, Nandyanto ABD, Yun KM, Hogan CJ, Okuyama K, Biswas P (2007) Adv Mater 19:1408–1412
Ming H, Ma Z, Huang H, Lian S, Li H, He X, Yu H, Pan H, Liu Y, Kang Z (2011) Chem Commun 28:8025–8027
Batool SS, Imran Z, Rafiq MA, Hasan MM, Willander M (2013) Ceram Int 39:1775–1783
Tian J, Zhao Z, Kumar A, Boughton RI, Liu H (2014) Chem Soc Rev 43:6920–6937
Yongliang C, Wenzhi H, Zhang Y, Ling Zhu L, Liu Y, Fanc X, Cao X (2010) Cryst Eng Comm 12:2256–2260
Zang J, Choi SW, Kim SS (2011) J Solid State Chem 184:3008–3013
Choi K, Lee SH, Parka JU, Choi DY, Hwang CH, Lee IH, Chang M (2013) Mater Lett 112:113–116
Guangfei H, Yibing Cai G, Zhao Y, Wang X, Lai C, ** M, Zhu Z, Fong HJ (2013) Coll Interf Sci 398:103–111
Homaeigohar S, Davoudpour Y, Habibi Y, Elbahri M (2017) The electrospun ceramic hollow NFs. Nanomater 7:1–32
Yang Z, Lu J, Ye W, Yu C, Chang Y (2017) Preparation of Pt/TiO2 hollow nanofibers with highly visible light photocatalytic activity. Appl Surf Sci 392:472–480
Hu G, Choi JH, Eom CB, Harris VG (2000) Suzuki. Phys Rev B: Condens Matter 62:779
Huang W, Zhu J, Zeng HZ, Wei XH, Zhang Y, Li YR (2006) Appl Phys Lett 89:262506
Lisfi A, Williams CM, Nguyen LT, Lodder JC, Coleman A, Corcoran H, Johnson A, Chang P, Kumar A, Morgan M (2007) Phys Rev B: Condens Matter Mater Phys 76:054405
Carey MJ, Maat S, Rice P, Farrow RCF, Marks RF, Kellock A, Nguyen P, Gurney BA (2002) Appl Phys Lett 81:1044
Cheng Y, Zou B, Yang J, Wang C, Liu Y, Fan X, Zhu L, Wang Y, Ma H, Cao X (2011) Cryst Eng Comm 13:2268
Hosseini SH, Sadeghi M (2014) Curr Appl Phys 14:928–931
Li CJ, Mater GR (2011) Res Bull 46:119–123
Pullar RC, Bdikin IK, Bhattacharya AK (2012) J Eur Ceram Soc 32:905–913
Wang GZ, Gao Z, Tang SW, Chen CQ, Duan FF, Zhao SC, Lin SW, Feng YH, Zhou L, Qin Y (2012) ACS Nano 6:11009–11017
Dong CS, Wang X, Zhou PH, Liu T, **e JL, Deng LJ (2014) J Magn Magn Mater 354:340–344
Yang J, Zhang J, Liang CY, Wang M, Zhao PF, Liu MM, Liu JW, Che RC (2013) ACS Appl Mater Inter 5:7146–7151
Wang Z, Zhao L, Wang P, Guo L, Yu J (2016) J Alloys Comp 687:541–547
Wollenstein J, Scheulin M, Herres N, Becker WJ, Bottner H (2003) Sens Mater 15:239
Takahashi K, Limmer SJ, Wang Y, Cao GZ (2004) J Phys Chem B 108:9795
Cao AM, Hu JS, Liang HP, Wan LJ (2005) Angew Chem Int Ed 44:4391
Raible I, Burghard M, Schlecht U, Yasuda A, Vossmeyer T (2005) Sens Actuat B 106:730
Raj AD, Pazhanivel T, Kumar PS, Mangalaraj D, Nataraj D, Ponpandian N (2010) Curr Appl Phys 10:531
Zeng W, Chen W, Li Z, Zhang H, Li T (2015) Mater Res Bull 65:157–162
Liu ZL, Tay SW, Hong L, Lee JY (2011) J Solid State Electrochem 15:205
Zhang WJ (2011) Struct J Power Sourc 196:2962
Lee J, Teja AS (2006) Mater Lett 60:17–18
Prosini PP, Zane D, Pasquali M (2001) Electrochim Acta 46:3517
Sanchez MAE, Brito GES, Fantini MCA, Goya GF, Matos JR (2006) Solid State Ionics 177:497
Lin Y, Gao MX, Zhu D, Liu YF, Pan HG (2008) J Power Sourc 184:444
Wang YZ, Zhang LX, Wang YB (2013) New Chem Mater 41:92
Wei BB, Wu YB, Yu FY, Zhou Y (2016) Int J Minerals Metallurgy Mater 23:474
Mahapatra A, Mishra BG, Hota G (2011) Ceram Int 37:2329–2333
DeRosa F, Kibbe MR, Najjar SF, Citro ML, Keefer LK, Hrabie JA (2007) J Am Chem Soc 129:3786–3787
Colle RD, Longo E, Fontes SR (2007) J Membrane Sci 289:58–66
Liu P, Zhu Y, Ma J, Yang S, Gong J, Xu J (2013) Colloids and Surf A: Physicochem Eng Aspects
Wu H, Lin DD, Pan W (2006) Appl Phys Lett 89:133125
Chen J, Huang NY, Deng SZ, She JC, Xu NS, Zhang WX, Wen XG, Yang SH (2005) Appl Phys Lett 86:151107
Torres A, Ruales C, Pulgarin C, Aimable A, Bowen P, Sarria V (2010) ACS Appl Mater Interf 2:2547
Chen L, Shet S, Tang HW, Wang HL, Deutsch T, Yan YF (2010) HH. J Mater Chem 20:6962
Turner J, Al-Jassim M (2010) J Mater Chem 20:6962
Hoa ND, Quy NV, Jung H, Kim D, Kim H, Hong SK (2010) Sens Actuat B 146: 266
Sander MS, Gao H (2005) J Am Chem Soc 127:12158
Li D, **a YN (2003) Nano Lett 3:555
**ang H, Long Y, Yu X, Zhang X, Zhao N, Xu J (2011) Cryst Eng Comm 13:4856
Lee DS, Jung JK, Lim JW, Huh JS, Lee DD (2001) Sens Actuat B 77:228–236
Song XF, Liu L (2009) Sens Actuat A 154:175–179
Choi SW, Park JY, Kim SS (2009) Nanotechnology 20:465603
Park JA, Moon J, Lee SJ, Kim SH, Chu HY, Zyung T (2010) Sens Actuat B 145:592–595
Dayal P, Kyua T (2006) J Appl Phys 100: 043512-1–043512-6
Li XH, Shao CL, Liu YC, Chu XY, Wang CH, Zhang BX (2008) J Chem Phys 129:114708-1–114708-5
Wei S, Zhang Y, Zhou M (2011) Solid State Commun 151:895–899
Lee HJ, Yamauchi H, Suda H, Haraya K (2006) Sep Purif Technol 49:49–55
Mitra A, Jana D, De G (2012) Micropor Mesopor Mat 158:187–194
Wang YG, Bronsveld PM, DeHosson JTM, Djuricic B, McGarry D, Pickering S (1998) J Am Ceram Soc 81:1655–1660
Engelhart W, Dreher W, Eibl O, Schier V (2011) Acta Mater 59:7757–7767
Peng C, Zhang J, **ong Z, Zhao B, Liu P (2015) Microporous Mesoporous Mater 215:133–142
Hong YC, Shin DH, Uhm HS (2007) Mater Chem Phys 101:35–40
Pande P, Rasmussen PG, Thompson LT (2012) J Power Sourc 207:212–215
Newport A, Carmalt CJ, Parkin IP, Neill SA (2004) Eur J Inorg Chem 21:4286–4290
Suszko T, Gulbinski W, Urbanowicz A, Gulbinski W (2011) Mater Lett 65:2146–2148
Choi BD, Blomgren GE, Kumta PN (2006) Adv Mater 18:1178–1182
Zhao J, Liu B, Xu S, Yang J, Lu Y (2015) J Alloys Comp 651:785–792
Subramanian V, Zhu HW, Vajtai R, Ajayan PM, Wei BQ (2005) J Phys Chem B 109:20207–20214
Wei W, Cui X, Chen W, Ivey DG (2011) Chem Soc Rev 40:1697–1721
Benbow EM, Kelly SP, Zhao L, Reutenauer JW, Suib SL (2011) J Phys Chem C 115:22009–22017
Yang X, Peng W, Fu K, Mao L, ** J, Yang S, Li G (2020) Electrochimica Acta 340:135989
Zhang L, Yang X, Cai R, Chen C, **a Y, Zhang H, Yang D, Yao X (2019) Nanoscale 11:826–832
Wang Z, Peng S, Hu Y, Li L, Yan T, Yang G, Ji D, Srinivasan M, Pan Z, Ramakrishna S (2017) J Mater Chem 5:4949–4961
Upadhyay S, Mishra R, Sahay P (2015) Actuat B Chem 209:368–376
Teleki A, Pratsinis S, Gouma P (2008) Chem Mater 20:4794–4796
Liu F, Chu X, Dong Y, Zhang W, Sun W, Shen L (2013) Sens Actuat B: Chem 188:469–474
Kim S, Park S, Park S, Lee C (2015) Sens Actuat B: Chem 209:180–185
Wang L, Lou Z, Fei T, Zhang T (2012) Sens Actuat B: Chem 161:178–183
Fan H, Jia X (2011) Solid State Ion 192:688–692
Park J, Choi S, Kim S (2000) Nanotechnology 21
Lianga X, ** G, Liu F, Zhang X, An S, Ma J, Lu G (2015) Cer Inter 41:13780–13787
Kim Y, Hwang I, Kim S, Lee C, Lee JH (2008) Sens Actuat B: Chem 135:298–303
Xu X, Zhao P, Wang D, Sun P, You L, Sun Y, Liang X, Liu F, Chen H, Lu G (2013) Sens Actuat B: Chem 176:405–412
Qi Q, Zhang T, Liu L, Zheng X, Yu Q, Zeng Y, Yang H (2008) Sens Actuat B: Chem 134:166–170
Pramod NG, Pandey SN (2014) Ceram Int 40:3461–3468
Zhang G, Han X, Bian W, Zhan J, Ma X (2016) RSC Adv 6:3919–3926
Fu X, Yang P, **ao X, Zhou D, Huang R, Zhang (2019) J Alloys Compd 797:666–675
Hernández-RodrÃguez MA, Lozano-GorrÃn AD, MartÃn IR, Mendoza UR, Lavin V (2018) Sens Actuat B Chem 255:970–976
Chakraborty S, Pal MJ (2019) Alloys Compd 787:1204–1211
Tie Y, Ma SY, Pei ST, Zhang QX, Zhu KM, Zhang R, Xu XH, Han T, Liu, WW (2020) Sens Actuat B: Chem 308:127689
Tang K, Yu Y, Mu X, van Aken PA, Maier J (2013) Electrochem Commun 28:54–57
Choi KI, Lee SH, Park JY, Choi DY, Hwang CH, Lee IH, Chang MH (2013) Mater Lett 112:113–116
Jung JY, Lee D, Lee YS (2015) J Alloys Compd 622:651–656
Lee S, Ha J, Choi J, Song T, Lee JW, Paik U (2013) ACS Appl Mater Interf 5:11525–11529
Zhan S, Qiu M, Yang S, Zhu D, Yu H, Li YJ (2014) Mater Chem A 2:20486–20493
Yu W, Ma Q, Li X, Dong X, Wang J, Liu G (2014) Mater Lett 120:126–129
Dong G, **ao X, Peng M, Ma Z, Ye S, Chen D, Qin H, Deng G, Liang Q, Qiu J (2012) RSC Adv 2:2773–2782
Li D, Wang J, Dong X, Yu W, Liu G (2013) J Mater Sci 48:5930–5937
Park H, Jung H, Zhang M, Chang CH, Ndifor-Angwafor NG, Choa Y, Myung NV (2013) Nanoscale 5:3058–3062
Wang Z, Zhao L, Wang P, Guo L, Yu J (2016) J Alloys Compd 687:541–547
Mohanapriya P, Sathish CI, Pradeepkumar R, Segawa H, Yamaura K, Watanabe K, Natarajan T, Jaya NV (2013) J Nanosci Nanotechnol 13:5391–5400
Kenawy ER, Bowlin GL, Mansfield K, Layman J, Simpson DG, Sanders EH, Wnek GEJ (2002) Contr Release 81:57–64
Liu W, Thomopoulos S, **a Y (2012) Adv Healthcare Mater 1:10–25
Hu X, Liu S, Zhou G, Huang Y, **e Z, **g XJ (2014) Contr Release 185:12–21
Ma Z, Kotaki M, Ramakrishna S (2006) J Membr Sci 272:179–187
Nasreen SAAN, Sundarrajan S, Nizar SAS, Balamurugan R, Ramakrishna S (2013) Membranes 3:266–284
Chung HJ, Park TG (2007) Adv Drug Deliv Rev 59:249–262
Sokolsky-Papkov M, Agashi K, Olaye A, Shakesheff K, Domb AJ (2007) Adv Drug Deliv Rev 59:187–206
Kenawy ER, Abdel-Hay FI, El-Newehy MH, Wnek GE (2009) Mater Chem Phys 113:296–302
Haider A, Gupta KC, Kang IK (2014) BioMed Res Int
Haider A, Gupta KC, Kang IK (2014) Nanoscale Res Lett 9:1
Vasita R, Katti DS (2006) Int J Nanomed 1:15
Almany L, Seliktar D (2005) Biomaterials 26:2467–2477
Pavlov MP, Mano JF, Neves NM, Reis RL (2004) Macromol Biosci 4:776–784
Prabhakaran MP, Vatankhah E, Ramakrishna S (2013) Biotechnol Bioeng 110:2775–2784
Yoo CR, Yeo IS, Park KE, Park JH, Lee SJ, Park WH, Min BM (2008) Int J Biol Macromol 42:324–334
Liu W, Lipner J, Moran CH, Feng L, Li X, Thomopoulos S, **a Y (2015) Adv Mater 27:2583–2588
Wong HM, Chu PK, Leung FK, Cheung KM, Luk KD, Yeung KW (2014) Prog Nat Sci: Mater Int 24:561–567
Rim NG, Shin CS, Shin H (2013) Biomed Mater 8:014102
Gao Y, Bach Truong Y, Zhu Y, Louis Kyratzis I (2014) J Appl Polym Sci 131
Si Y, Tang X, Yu J, Ding B (2014) Electrospun NFs for energy and environmental applications. Springer, pp 3–38
Powell HM, Supp DM, Boyce ST (2009) Biomater 29:834–843
Rujitanaroj P, Pimpha N, Supaphol P (2008) Polym 49:4723–4732
**e J, Hsieh YL (2003) J Mater Sci 38:2125–2133
Jia H, Zhu G, Vugrinovich B, Kataphinan W, Reneker DH, Wang P (2002) Biotechnol Prog 18:1027–1032
Li SF, Chen JP, Wu WTJ (2007) Mol Catal B Enzym 47:117–124
Zhang L, Luo L, Menkhaus TJ, Varadaraju H, Sun Y, Fong H (2011) J Membr Sci 369:499–505
Ibrahim HM, Mostafa M, Kandile NG (2020) Int J Biol Macromol 149:664–671
Hassabo AG, Nada AA, Ibrahim HM, Abou-Zeid NY (2015) Carbohydr Polym 122:343–350
El-Bisi MK, Ibrahim HM, Rabie AM, Elnagar K, Taha GM, El-Alfy EAD (2016) Pharma Chem 8:57–69
Zhang R, He Y, Xu LJ (2014) Mater Chem A 2:17979–17985
Wen Z, Tian-Mo L (2010) Physica B Conden Matter 405:1345–1348
Zhang XW, Ji LW, Toprakci O (2011) Polym Rev 51:239–264
Ke XB, Zheng ZF, Liu HW (2008) J Phys Chem B 112:5000–5006
Hui WU, Wei PAN, Dandan LIN, He** LIJ (2012) Adv Cer 1:2–23
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Mankotia, P., Sharma, K., Sharma, V., Sehgal, R., Kumar, V. (2021). Polymer and Ceramic-Based Hollow Nanofibers via Electrospinning. In: Tiwari, S.K., Sharma, K., Sharma, V., Kumar, V. (eds) Electrospun Nanofibers. Springer Series on Polymer and Composite Materials. Springer, Cham. https://doi.org/10.1007/978-3-030-79979-3_9
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