Alemdar A, Sain M (2008) Isolation and characterization of nanofibers from agricultural residues-Wheat straw and soy hulls. Bioresource Technol 99:1664-1671.
Bhatia SK, Otari SV, Jeon J, Gurav R, Choi Y, Bhatia RK, Pugazhendhi A, Kumar V, Rajesh Banu J, Yoon J, Choi K, Yang Y (2021) Biowaste-to-bioplastic (polyhydroxyalkanoates): conversion technologies, strategies, challenges, and perspective. Bioresource Technol 326:124733.
Chen H, Song Y, Cheng X, Zhang H (2019) Self-powered electronic skin based on the triboelectric generator. Nano Energy 56:252-268.
Chen J, Oh SK, Zou H, Shervin S, Wang W, Pouladi S, Zi Y, Wang ZL, Ryou J (2018) High-output lead-free flexible piezoelectric generator using single-crystalline GaN thin film. ACS Appl Mater Interfaces 10:12839-12846.
Chen Z, Yan T, Pan Z (2021). Review of flexible strain sensors based on cellulose composites for multi-faceted applications. Cellulose 28:615-645.
Fang F, Huang G, Xiao H, Li Y, Hu N, Fu S (2018) Largely enhanced electrical conductivity of layer-structured silver nanowire/polyimide composite films by polyaniline. Compos Sci Technol 156:144-150.
Fu H, Mo W, Shen X, Li B (2020) Impact of centrifugation treatment on enzymatic hydrolysis of cellulose and xylan in poplar fibers with high lignin content. Bioresource Technol 316:123866.
Guan F, Xie Y, Wu H, Meng Y, Shi Y, Gao M, Zhang Z, Chen S, Chen Y, Wang H, Pei Q (2020) Silver nanowire-bacterial cellulose composite fiber-based sensor for highly sensitive detection of pressure and proximity. ACS Nano 14:15428-15439.
Himmelsbach DS, Khalili S, Akin DE (2002) The use of FT-IR microspectroscopic mapping to study the effects of enzymatic retting of flax (Linum usitatissimum L) stems. J Sci Food Agr 82:685-696.
Huang Y, Wang Z, Zhou H, Guo X, Zhang Y, Wang Y, Liu P, Liu C, Ma Y, Zhang Y (2020) Highly sensitive pressure sensor based on structurally modified tissue paper for human physiological activity monitoring. J Appl Polym Sci 137:48973.
Jiu J, Araki T, Wang J, Nogi M, Sugahara T, Nagao S, Koga H, Suganuma K, Nakazawa E, Hara M, Uchida H, Shinozaki K (2014) Facile synthesis of very-long silver nanowires for transparent electrodes. J Mater Chem A 2:6326-6330.
Kim D, Yoon Y, Kauh SK, Lee J (2018) Towards sub-microscale liquid metal patterns: cascade phase change mediated pick-n-place transfer of liquid metals printed and stretched over a flexible substrate. Adv Funct Mater 28:1800380.
Li S, Huang S, Xu F, Xiao H, Zhang F, Zhang G (2019) Preparing polyester/carbon multifunctional fabrics by phosphoric acid carbonization. Cellulose 26:8907-8917.
Li W, Xiong L, Pu Y, Quan Y, Li S (2019) High-performance paper-based capacitive flexible pressure sensor and its application in human-related measurement. Nanoscale Res Lett 14.
Liu S, Li J, Shi X, Gao E, Xu Z, Tang H, Tong K, Pei Q, Liang J, Chen Y (2017) Rollerball-pen-drawing technology for extremely foldable paper-based electronics. Adv Electron Mater 3:1700098.
Lyu Q, Gong S, Yin J, Dyson JM, Cheng W (2021) Soft wearable healthcare materials and devices. Adv Health Mater 10:2100577.
Nie S, Hao N, Zhang K, Xing C, Wang S (2020) Cellulose nanofibrils-based thermally conductive composites for flexible electronics: a mini review. Cellulose 27:4173-4187.
Pu J, Zhao X, Zha X, Bai L, Ke K, Bao R, Liu Z, Yang M, Yang W (2019) Multilayer structured AgNW/WPU-MXene fiber strain sensors with ultrahigh sensitivity and a wide operating range for wearable monitoring and healthcare. J Mater Chem A 7:15913-15923.
Qian F, Lan PC, Freyman MC, Chen W, Kou T, Olson TY, Zhu C, Worsley MA, Duoss EB, Spadaccini CM, Baumann T, Han TY (2017) Ultralight conductive silver nanowire aerogels. Nano Lett 17:7171-7176.
Sain M, Panthapulakkal S (2006) Bioprocess preparation of wheat straw fibers and their characterization. Ind Crop Prod 23:1-8.
Seo Y, Hwang B (2019) Mulberry-paper-based composites for flexible electronics and energy storage devices. Cellulose 26:8867-8875.
Sluiter JB, Ruiz RO, Scarlata CJ, Sluiter AD, Templeton DW (2010) Compositional analysis of lignocellulosic feedstocks. 1. Review and description of methods. J Agr Food Chem 58:9043-9053.
Su Y, Yuan S, Cao S, Miao M, Shi L, Feng X (2019) Assembling polymeric silver nanowires for transparent conductive cellulose nanopaper. J Mater Chem C 7:14123-14129.
Sun RC, Tomkinson J, Wang YX, Xiao B (2000) Physico-chemical and structural characterization of hemicelluloses from wheat straw by alkaline peroxide extraction. Polymer 41:2647-2656.
Tai Y, Lubineau G (2017) “Self-Peel-Off” Transfer Produces Ultrathin polyvinylidene-fluoride-based flexible nanodevices. Adv Sci 4:1600370.
Trache D, Donnot A, Khimeche K, Benelmir R, Brosse N (2014) Physico-chemical properties and thermal stability of microcrystalline cellulose isolated from Alfa fibres. Carbohyd Polym 104:223-230.
Wang M, Zhang Z (1985) Advanced papermaking raw materials-Xue hua pi. Forestry science and technology of Hunan Province.
Wei Y, Chen S, Lin Y, Yuan X, Liu L (2016) Silver nanowires coated on cotton for flexible pressure sensors. J Mater Chem C 4:935-943.
Wu G, Yang Z, Zhang Z, Ji B, Hou C, Li Y, Jia W, Zhang Q, Wang H (2021) High performance stretchable fibrous supercapacitors and flexible strain sensors based on CNTs/MXene-TPU hybrid fibers. Electrochim Acta 395:139141.
Xiao B, Sun XF, Sun RC (2001) Chemical, structural, and thermal characterizations of alkali-soluble lignins and hemicelluloses, and cellulose from maize stems, rye straw, and rice straw. Polym degrad stabil 74:307-319.
Xue C, Wu Y, Guo X, Liu B, Wang H, Jia S (2020) Superhydrophobic, flame-retardant and conductive cotton fabrics via layer-by-layer assembly of carbon nanotubes for flexible sensing electronics. Cellulose 27:3455-3468.
Yin R, Yang S, Li Q, Zhang S, Liu H, Han J, Liu C, Shen C (2020) Flexible conductive Ag nanowire/cellulose nanofibril hybrid nanopaper for strain and temperature sensing applications. Sci Bull 65:899-908.
Zhang C, Tian J, Rao W, Guo B, Fan L, Xu W, Xu J (2019) Polypyrrole@metal-organic framework (UIO-66)@cotton fabric electrodes for flexible supercapacitors. Cellulose 26:3387-3399.
Zhang S, He Z, Zhou G, Jung B, Kim T, Park B, Byun J, Chou T (2020) High conductive free-written thermoplastic polyurethane composite fibers utilized as weight-strain sensors. Compos Sci Technol 189:108011.
Zhao D, Zhu Y, Cheng W, Chen W, Wu Y, Yu H (2021) Cellulose‐based flexible functional materials for emerging intelligent electronics. Adv Mater 33:2000619.