Palladium Nanoparticles Anchored on Thiol Functionalized Xylose Hydrochar Microspheres:…
22. Le XD, Dong ZP, Liu YS, Jin ZC, Huy TD, Le MD, Ma JT (2014)
Acknowledgements We wish to thank for the National Natural
Science Foundation of China (3197161, 31430092, 21736003),
Guangdong Natural Science Funds for Distinguished Young Scholar
(2016A030306027, 2017A030306029), Guangdong Natural Sci-
ence Funds (2017A030313130), Guangzhou science and technology
funds (201904010078), State Key Laboratory of Pulp and Paper Engi-
neering and Fundamental Research Funds for the Central Universities.
J Mater Chem A 2:19696–19706
23. Baran T, Menteş A (2016) J Mol Struct 1122:111–116
24. Kang SM, Li XL, Fan J, Chang J (2012) Ind Eng Chem Res
51:9023–9031
25. Woolf D, Amonette JE, Street-Perrott FA, Lehmann J, Joseph S
(2010) Nat Commun 1:56
26. Hitzl M, Mendez A, Owsianiak M, Renz M (2018) J Environ
Chem Eng 6:7029–7034
Compliance with Ethical Standards
27. James WL, Michelle K, Barbara RE, Sokwon P, Buchanan
AC III, Charles TG, Robert CB (2010) Environ Sci Technol
44:7970–7974
Conflict of interest The authors declare that they have no confict of
interest.
28. Dumroese RK, Heiskanen J, Englund K, Tervahauta A (2011)
Biomass Bioenergy 35:2018–2027
29. Wang LL, Wang XF, Zou B, Ma XY, Qu YN, Rong CG, Li Y, Su
Y, Wang ZC (2011) Bioresour Technol 102:8220–8224
30. Liu ZG, Zhang FS (2011) Desalination 267:101–106
31. Zhu XD, Liu YC, Qian F, Zhou C, Zhang SC, Chen JM (2014)
Bioresour Technol 154:209–214
References
1. Johansson Seechurn CC, Kitching MO, Colacot TJ, Snieckus V
(2012) Angew Chem Int Ed Engl 51:5062–5085
2. Norio M, Akira S (1995) Chem Rev 95:2457–2483
3. Kunf A, May Z, Németh P, London G (2018) J Catal 361:84–93
4. Xiao Q, Sarina S, Jaatinen E, Jia JF, Arnold DP, Liu HW, Zhu HY
(2014) Green Chem 16:4272–4285
32. Genovese M, Lian K (2017) J Mater Chem A 5:3939–3947
33. Liu WJ, Jiang H, Yu HQ (2015) Chem Rev 115:12251–12285
34. Tan XF, Liu SB, Liu YG, Gu YL, Zeng GM, Hu XJ, Wang X, Liu
SH, Jiang LH (2017) Bioresour Technol 227:359–372
35. Wang XX, Hu PB, Xue FJ, Wei YP (2014) Carbohydr Polym
114:476–483
5. Puthiaraj P, Pitchumani K (2014) Green Chem 16:4223–4233
6. Yavuz K, Küçükbay H (2018) Appl Organomet Chem 32:e3897
7. Dong WH, Zhang L, Wang CH, Feng C, Shang NZ, Gao ST, Wang
C (2016) RSC Adv 6:37118–37123
36. Baran NY, Baran T, Mentes A (2018) Carbohydr Polym
181:596–604
37. Frindy S, Primo A, Lahcini M, Bousmina M, Garcia H, Kadib AE
(2015) Green Chem 17:1893–1898
8. Rathi AK, Gawande MB, Pechousek J, Tucek J, Aparicio C, Petr
M, Tomanec O, Krikavova R, Travnicek Z, Varma RS, Zboril R
(2016) Green Chem 18:2363–2373
38. Hajipour AR, Sadeghi AR, Khorsandi Z (2018) Appl Organomet
Chem 32:e4112
39. Kardanpour R, Tangestaninejad S, Mirkhani V, Moghadam M,
Mohammadpoor-Baltork I, Khosropour AR, Zadehahmadi F
(2014) J Organomet Chem 761:127–133
9. Veisi H, Manesh AA, Eivazi N, Faraji AR (2015) RSC Adv
5:20098–20107
10. Camp JE, Dunsford JJ, Dacosta OSG, Blundell RK, Adams J,
Britton J, Smith RJ, Bousfeld TW, Fay MW (2016) RSC Adv
6:16115–16121
40. Sevilla M, Fuertes AB (2009) Chemistry 15:4195–4203
41. Oliveira RL, He W, Gebbink RJMK, de Jong KP (2015) Catal Sci
Technol 5:1919–1928
11. Lichtenegger GJ, Maier M, Hackl M, Khinast JG, Gössler W,
Griesser T, Phani Kumar VS, Gruber-Woelfer H, Deshpande PA
(2017) J Mol Catal A 426:39–51
42. Sabounchei SJ, Ahmadi M, Nasri Z, Shams E, Panahimehr M
(2013) Tetrahedron Lett 54:4656–4660
43. Crudden CM, Sateesh M, Lewis R (2005) J Am Chem Soc
127:10045–10050
12. Gholinejad M, Najera C, Hamed F, Seyedhamzeh M, Bahrami M,
Kompany-Zareh M (2017) Tetrahedron 73:5585–5592
13. Veisi H, Gholami J, Ueda H, Mohammadi P, Noroozi M (2015) J
Mol Catal A 396:216–223
44. Sobhi HR, Ghambarian M, Esrafli A, Behbahani M (2017) Micro-
chim Acta 184:2317–2323
45. Yılmaz Ş, Şahan T, Karabakan A (2017) Korean J Chem Eng
34:2225–2235
14. Gholinejad M, Zareh F, Nájera C (2018) Appl Organomet Chem
32:e3984
46. Chen W, Zhong LX, Peng XW, Wang K, Chen ZF, Sun RC (2014)
Catal Sci Technol 4:1426–1435
15. Huo JJ, Johnson RL, Duan P, Pham HN, Mendivelso-Perez D,
Smith EA, Datye AK, Schmidt-Rohr K, Shanks BH (2018) Catal
Sci Technol 8:1151–1160
47. Evangelisti C, Panziera N, Pertici P, Vitulli G, Salvadori P, Bat-
tocchio C, Polzonetti G (2009) J Catal 262:287–293
48. Xie ZL, White RJ, Weber J, Taubert A, Titirici MM (2011) J
Mater Chem 21:7434–7442
16. Diyarbakir S, Can H, Metin O (2015) ACS Appl Mater Interfaces
7:3199–3206
17. Elazab HA, Siamaki AR, Moussa S, Gupton BF, El-Shall MS
(2015) Appl Catal A 491:58–69
49. Chen W, Zhong LX, Peng XW, Lin JH, Sun RC (2014) Cellulose
21:125–137
18. Jadhav S, Kumbhar A, Salunkhe R (2015) Appl Organomet Chem
29:339–345
Publisher’s Note Springer Nature remains neutral with regard to
jurisdictional claims in published maps and institutional afliations.
19. Mori K, Masuda S, Tanaka H, Yoshizawa K, Che M, Yamashita
H (2017) Chem Commun 53:4677–4680
20. Ayodele OB, Farouk HU, Mohammed J, Uemura Y, Daud WMAW
(2015) J Mol Catal A 400:179–186
21. Fu WQ, Zhang L, Tang TD, Ke QP, Wang S, Hu JB, Fang GY, Li
JX, Xiao FS (2011) J Am Chem Soc 133:15346–15349
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